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schooldekho91 · 4 months ago

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10 Factors to Consider Before Choosing a School in Bangalore (Parents Must Read!)

Choosing the right school for your child is one of the most important decisions you’ll make as a parent. With so many options available, from CBSE and ICSE to IB and IGCSE, it can feel overwhelming. Bangalore, known as the education hub of India, offers some of the best schools in Bangalore, but how do you know which one is right for your child?

To make your decision easier, here are 10 key factors you should consider before choosing a school in Bangalore.

1. Curriculum & Board Affiliation

The first step is to decide which curriculum aligns with your child’s learning style and future goals. Bangalore schools offer multiple options: ✔️ CBSE – Structured, national curriculum with focus on competitive exams. ✔️ ICSE – Emphasizes English, literature, and holistic learning. ✔️ IB (International Baccalaureate) – Ideal for global education with critical thinking skills. ✔️ IGCSE (Cambridge Board) – International syllabus with a practical learning approach. ✔️ State Board (Karnataka Board) – Suitable for local syllabus and state-level exams.

Choose a board based on your child’s interests and long-term career goals.

2. Location & Travel Time

Bangalore is infamous for its traffic! Choosing a school close to your home can save hours of travel time. Long commutes can exhaust your child and reduce study or playtime. If a school is far, check if they offer safe and reliable school transport.

3. Infrastructure & Facilities

A well-equipped school makes learning more engaging. Look for: ✔️ Spacious classrooms with modern technology ✔️ Science & computer labs for practical learning ✔️ Libraries with a wide range of books ✔️ Sports facilities (playgrounds, swimming pools, basketball courts) ✔️ Smart classrooms & e-learning resources

Top schools in Bangalore focus on providing world-class infrastructure to enhance the learning experience.

4. Teacher Quality & Teaching Methods

Teachers shape a child’s future. Before enrolling, check: ✔️ Teacher qualifications & experience ✔️ Student-teacher ratio (lower is better for individual attention) ✔️ Teaching style – traditional or activity-based learning? ✔️ Use of technology in teaching (interactive learning, AI tools)

Attending demo classes or interacting with current parents can give you a good idea about the quality of teaching.

5. Extracurricular Activities

Academics alone are not enough. A good school should focus on overall personality development through: ✔️ Sports – Cricket, football, swimming, etc. ✔️ Music & dance – Classical, western, instrumental ✔️ Art & drama – Theatre, painting, storytelling ✔️ Coding & robotics – Future-ready skills ✔️ Public speaking & leadership programs

These activities help students develop confidence, teamwork, and creativity alongside academics.

6. Safety & Security

Your child’s safety should be a top priority. Look for: ✔️ CCTV surveillance & security personnel ✔️ Background-verified teachers & staff ✔️ Strict anti-bullying policies ✔️ Emergency medical facilities & first-aid availability

Ask the school about their safety policies and student monitoring systems before making a decision.

7. School Reputation & Reviews

A school’s reputation speaks a lot about its performance. Before finalizing, check: ✔️ Parent reviews & testimonials ✔️ School rankings in Bangalore ✔️ Board exam results & student achievements ✔️ Alumni success stories

You can find these details on the school’s website, social media pages, and online forums.

8. Fee Structure & Affordability

Education costs in Bangalore vary widely. International schools charge higher fees than CBSE or state board schools. Consider: ✔️ Annual tuition fees ✔️ Admission fees & additional costs (books, uniforms, transport) ✔️ Scholarships & financial aid options

Ensure the school fits your budget without compromising on quality education.

9. Focus on Mental & Emotional Well-being

A great school should provide a stress-free learning environment with: ✔️ Counseling & mental health support ✔️ Workshops on mindfulness & stress management ✔️ Anti-bullying programs

A school that cares about students' emotional well-being helps them perform better and stay happy.

10. Future Readiness & Global Exposure

The world is changing fast, and students need future-ready skills. Look for schools that offer: ✔️ International exchange programs ✔️ Entrepreneurship & leadership training ✔️ Internship & project-based learning ✔️ Exposure to AI, coding, and emerging technologies

These aspects ensure that your child is prepared for higher studies and career success.

Final Thoughts: Which School is Best for Your Child?

Finding the perfect school in Bangalore depends on your priorities. Some schools excel in academics, while others focus on extracurriculars and innovation.

Before making your final decision: ✅ Visit the school campus ✅ Talk to teachers & current students ✅ Attend demo classes ✅ Check the school's long-term track record

Choosing the right school is an investment in your child’s future. Take your time, do your research, and pick a school that aligns with your child’s learning style, interests, and ambitions.

Also Read :-

CBSE vs IB vs ICSE – Which Board Offers the Best Future in Bangalore?

The Cost of Education in Bangalore: Are You Paying Too Much?

Bangalore Schools vs Delhi Schools – Which City Wins the Education Battle?

#schools #bangalore schools

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daniamedicare · 6 months ago

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Affordable Healthcare in India: Cost Comparisons for Medical Tourism

Medical tourism has become a lifeline for patients seeking affordable yet high-quality healthcare. Among the most sought-after destinations, India stands out for its state-of-the-art medical facilities, skilled professionals, and significantly lower costs. Let's delves into the financial benefits of seeking treatment in India, comparing costs with those in Western countries, and explaining why India offers excellent value for money without compromising quality.

The Rising Popularity of Medical Tourism

The global healthcare system is burdened with skyrocketing costs, long waiting times, and limited access to advanced treatments in many countries. Medical tourism bridges these gaps by offering patients the opportunity to receive timely and affordable care abroad. India, with its robust healthcare infrastructure and diverse treatment options, has emerged as a leader in this domain.

Why Are Medical Costs Lower in India?

The affordability of healthcare in India can be attributed to several factors:

Lower Operational Costs: Hospitals in India benefit from lower labor and administrative expenses.

Economies of Scale: High patient volumes enable Indian hospitals to optimize costs.

Favorable Exchange Rates: The strength of the dollar or euro against the Indian rupee benefits international patients.

Government Support: Policies promoting medical tourism help hospitals maintain competitive pricing.

Despite these cost advantages, the quality of care in India meets or exceeds international standards.

Additional Savings for Medical Tourists

Besides direct medical costs, other factors contribute to significant savings:

Medications: Generic drug prices in India are much lower than in Western countries.

Accommodation: Hotel stays in India range from $20 to $150 per night, compared to $100 to $500 in Western nations.

Travel Expenses: Flights and transportation costs are often offset by the savings on treatment.

Tax-Free Services: Medical procedures in India are exempt from additional taxes in many cases.

Quality of Care in India

Despite the lower costs, Indian hospitals are equipped with:

Advanced Technology: Many hospitals use robotic surgeries, AI-driven diagnostics, and minimally invasive techniques.

Accreditation: Leading institutions are accredited by JCI (Joint Commission International) and NABH (National Accreditation Board for Hospitals & Healthcare Providers).

Skilled Professionals: Indian doctors often have international training and years of experience in their specialties.

Beyond Cost: The Patient Experience

India's medical tourism experience includes:

Short Waiting Times: Treatments can often be scheduled within days or weeks.

Comprehensive Packages: Many hospitals offer bundled packages that include treatment, accommodation, and transportation.

Personalized Care: Dedicated patient coordinators ensure a seamless experience.

Conclusion: Making an Informed Choice

Medical tourism in India offers unparalleled value, combining affordability with top-notch care. For patients seeking high-quality treatments without the financial strain, India provides an ideal solution. When considering your options, research accredited hospitals, consult with experts, and plan your journey carefully to maximize the benefits of medical tourism.

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hpheating123 · 7 months ago

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Why Heat Pumps Are the Future of Home Heating and Cooling

Have you ever wondered what homes inside the destiny will seem like? Maybe you’ve imagined robots cleansing your private home or lights that turn on with a snap of your hands. But one element that’s already changing the way we stay nowadays is the heat pump. It’s an tremendous invention that could replace traditional heating and cooling structures like boilers or air conditioners.

If you’re now not positive what heat pumps are or why they’re so critical, don’t worry! I’ll explain it to you step-by way of-step, similar to I could to a 10-year-vintage. And alongside the manner, we’ll additionally speak approximately how heat pumps compare to antique-faculty structures like boilers and how plumbers in Guildford or plumbers in Woking can help you switch to this cool (or heat) generation.

What Is a Heat Pump?

Imagine you have got a magical suitcase that could carry hot air or cold air anywhere you want it. In the wintry weather, it collects heat air from outside (even if it feels cold!) and brings it into your property. In the summer time, it does the other: it grabs the recent air from inner your private home and sends it out of doors.

That’s what a warmth pump does! It doesn’t create warmness or bloodless; it just actions it from one location to some other.

Example: The Refrigerator Analogy

Think of your fridge at domestic. It maintains your milk and greens cold by means of taking the heat out of them and pushing that heat to the lower back of the refrigerator. That’s why the back of your fridge feels warm. A heat pump works the same way, except it heats or cools your entire residence.

How Do Heat Pumps Work?

Heat pumps would possibly sound like magic, however they without a doubt follow some simple technological know-how. Here’s how:

The Heat Sponge (Refrigerant):A special liquid called refrigerant flows via the heat pump. This liquid can “absorb” heat from one location and launch it in any other.

The Heat Booster (Compressor):The compressor squeezes the refrigerant, making it high-quality hot. It’s like rubbing your fingers collectively to heat them up!

The Heat Mover (Coils):The refrigerant travels through steel tubes (coils) to transport heat from out of doors to internal within the iciness, or inner to out of doors within the summer.

The Fans: Fans blow air over the coils, helping to spread the hot or bloodless air all through your house.

Why Are Heat Pumps the Future?

Heat pumps are gaining popularity, and for accurate reasons. Let’s examine why they’re better than conventional systems like boilers or air conditioners.

1. Energy Efficiency

Heat pumps are extremely good-efficient because they don’t burn fuel to create warmth. Instead, they simply move it. This way they use plenty much less strength than a gas boiler or an electric heater.

Example: Imagine wearing a bucket of water from one spot to another rather than pumping it from the floor. It’s a good deal less difficult to move something that’s already there!

2. Eco-Friendly

Because heat pumps use less energy, they’re much higher for the surroundings. They reduce greenhouse fuel emissions, which enables combat climate change.

Fun Fact: Some heat pumps may even be powered by renewable power like solar panels, making them even greener!

3. Year-Round Comfort

Unlike boilers, which handiest warmness your own home, a warmth pump can both warmth and cool. It’s like having a reversible jacket that works in summer time and winter.

4. Cost Savings Over Time

While warmth pumps may cost a little greater to put in than a boiler, they shop money on energy payments in the long run. Plus, governments regularly provide incentives to help cowl the price of switching to a warmth pump.

5. Reliable and Low Maintenance

Heat pumps are constructed to remaining and require much less upkeep than conventional structures. Regular servicing by specialists (like plumbers in Guildford or plumbers in Woking) maintains them strolling smoothly for years.

Comparing Heat Pumps to Boilers

If you have already got a boiler at domestic, you might wonder: “Why must I transfer to a warmness pump?” Let’s evaluate

Yes! Even when it feels freezing outdoor, there’s nevertheless some warmness within the air. Heat pumps are like detectives—they can discover even the smallest bits of warmth and bring them into your house. However, in extraordinarily cold climates, some homes use a backup heating system, like a boiler, for extra warmth.

Example: Have you ever visible a person wearing a skinny coat within the snow and idea, “How are they now not freezing?” Heat pumps are a piece like that—they’re clearly precise at finding heat, even if it’s cold outdoor.

Why Local Plumbers Matter

Installing a heat pump isn’t a DIY job. It takes professional professionals to get it right. That’s in which plumbers in Guildford and plumbers in Woking are available.

How Can Plumbers Help?

Boiler Replacements: If you’re switching from a boiler to a heat pump, plumbers will effectively put off your old machine and prepare your private home for the new one.

Heat Pump Installation: Heat pumps require careful placement and connection to your private home’s heating and cooling structures. Professional plumbers make certain the entirety runs smoothly.

Maintenance and Repairs: Regular servicing continues your warmth pump green. If there’s ever a trouble, nearby plumbers can deal with boiler upkeep or warmness pump fixes speedy.

Advice on Upgrades: Not equipped to let go of your boiler? Plumbers assist you to improve to a greater efficient model or combine your boiler with a warmness pump for the fine of both worlds.

The Role of Boiler Installations and Repairs

Even though heat pumps are the future, boilers are still commonplace in many homes. At HP Heating, we know that not absolutely everyone is prepared to exchange simply yet. That’s why we also offer:

Boiler Installations: If you want a brand new boiler, we’ll assist you pick an strength-green model that works for your home.

Boiler Repairs: Got a damaged boiler? Our crew can repair it quickly and preserve your own home warm until you’re ready to upgrade to a warmness pump.

Fun Fact: Heat Pumps Aren’t New!

You might assume heat pumps are futuristic, but they’ve been around for decades. They’ve simply gotten higher and extra efficient through the years. Now, they’re eventually getting the attention they deserve as a clever, sustainable desire for home heating and cooling.

Is a Heat Pump Right for You?

If you’re nonetheless on the fence approximately switching to a warmness pump, right here are some questions to ask your self:

Do you need to shop cash on electricity payments? Heat pumps are extra efficient and may reduce your fees.

Do you care about the surroundings? Heat pumps lessen your carbon footprint.

Do you need one system for heating and cooling? Heat pumps do all of it!

Are you in Guildford or Woking? Local plumbers like HP Heating can make the transition smooth.

Final Thoughts

Heat pumps are converting the manner we warmth and cool our homes. They’re energy-green, green, and provide 12 months-round comfort—all whilst saving you money in the long run.

If you’re geared up to make the transfer, or in case you nevertheless need assist with boiler installations or boiler repairs, HP Heating is here to assist. Our group of skilled plumbers in Guildford and plumbers in Woking can guide you each step of the way, making sure your property is cushty and future-prepared.

Get in touch with us nowadays to examine more approximately warmness pumps or to schedule a consultation. The future of home heating and cooling begins here!

#HeatPumps #HomeHeating #HomeCooling #EcoFriendlyHeating #EnergyEfficiency #PlumbersInGuildford #PlumbersInWoking #BoilerInstallations #BoilerRepairs #SustainableLiving #HeatingSolutions #CoolingSolutions #HPHeating #FutureOfHeating #GuildfordHeating #WokingHeating

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businessfortune · 8 months ago

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International Space Station: A Hub for Groundbreaking Science

A space station is a man-made structure launched into orbit that contains the pressurized confinement, power, supply, and environmental systems needed to support long-term human habitation. Depending on how they are configured, a space station can serve as the foundation for a variety of activities. Research on the environment and resources of Earth, military reconnaissance, views of the Sun and other celestial bodies, and long-term studies of the behavior of biological systems and materials, including human physiology and biochemistry, in a condition of weightlessness, or microgravity experiments, are among examples.

Launched into a low orbit above the Earth in 1971, twelve space stations have been manned for varying lengths of time. Among them is the International Space Station (ISS).

International Space Station: A Hub for Groundbreaking Science

Scientific discovery, investigations and cutting-edge technical demonstrations are conducted on the International Space Station, a microgravity research center. More than 3,700 researches have produced more than 4,000 study articles that have been published in academic journals too far. In 2023, the orbital lab conducted more than 500 studies.

An Original View of Pulsars are another name for neutron stars, which are ultra-dense components left over after massive stars explode as supernovas that may spin and emit X-ray radiation in beams that span the sky like lighthouses. The Neutron star Interior Composition Explorer (NICER) collects this radiation to study pulsar dynamics, energetics, and structure.

Overview of the International Space Station

The International Space Station is a big spacecraft that circles the earth. It serves as a home for teams of astronauts and cosmonauts. The space station is another unique space research laboratory. Several nations worked together to build and run the space station. In orbit, astronauts assembled the space station's components. Its typical orbit around the Earth is around 250 miles. 17,500 miles per hour is its top speed. This indicates that it orbits the Earth every 90 minutes. NASA is using the space station to learn more about how to live and operate in space. Because of these lessons, humans will be able to travel farther into space than they have in the past.

The first part of the International Space Station was launched in November 1998. A Russian rocket launched the Russian Zarya (zar EE uh) control module. The space station is the size of a five-bedroom house or two Boeing 747 jetliners. It has space for six crew members and visitors. On Earth, the space station would weigh more than a million pounds. In addition to the laboratories where scientists work, the space station has a number of other components.

The solar panels reach out to the sides of the space station. These arrays use solar energy to create power. The arrays and the station are connected by a long truss. The truss is equipped with radiators that control the space station's temperature. Robotic arms have been placed outside the space station. It was the robot arms that helped build the space station. These arms may also be utilized to transport people during outdoor spacewalks. It is other arms that do space science experiments.

Astronauts can go on spacewalks through airlocks that open to the outside. Docking ports allow other spacecraft to connect to the space station. New employees and visitors are brought in through the ports. Astronauts are transported to the space station by the Russian Soyuz. Robotic spaceships utilize the docking ports to deliver supplies.

The Role of the ISS in Scientific Research

The International Space Station (ISS) provides a unique opportunity to perform fundamental and translational research on organ and systemic function without the gravity variable needed to accomplish these goals. The presence of humans in the space science laboratory for up to six months allows for the creation of much-needed databases for the various physiological systems and a thorough evaluation of certain countermeasures, such as physical activity and pharmacological medications. For example, a specific tour can provide information about the effects of radiation on coronary heart disease and the usage of drugs to reduce bone resorption.

International Collaboration in Space

One of the most successful examples of international space cooperation is the International Space Station (ISS), which was built by the United States, Russia, the European Space Agency (ESA), Japan, and Canada just a few decades after the US-Soviet Space Race. Cars, equipment, and personnel are still provided by various member states as part of this international partnership. Collaboration on the ISS missions has persisted despite harsh contemporary relations with Russia, proving that past hostility can be put aside for the benefit of working countries. The future of cooperation is unclear, though, since the director of Roscosmos recently made comments that suggested Russia would withdraw from the ISS partnership in retaliation to US sanctions. The omission of China is another drawback to this vision of international collaboration, which is especially significant given the struggle between the US and China in space.

The International collaboration between China and ESA, two significant space agencies, is another. In the early 2000s, China and ESA launched complementary satellites—China's Double Star satellites and ESA's Cluster satellites—to study the Earth's magnetic field. Around the same time, ESA and the Chinese Ministry of Science and Technology (MOST) launched the Dragon Program, which established Chinese-European research teams to analyze Earth's surface and atmospheric observations from European and Chinese satellites. Results are openly shared between the two organizations at quarterly symposia, and many articles from this partnership are published with coauthors from across the world.

Future of the International Space Station

Since the launch of its first modules at the end of 1998, the International Space Station has been in an orbit 250 miles above Earth. However, NASA plans to crash the ISS into the sea at the end of 2030 once it will be replaced by a new space station, serving as a warning that nothing in Earth's orbit can stay in space eternally.

In order to create a space station that will be owned, built, and operated by private enterprises, NASA is collaborating with Axiom Space, Voyager Space, or Blue Origin. NASA is giving each firm hundreds of millions of dollars in financing and sharing its expertise.

Ultimately, one company will be selected to formally partner with and assume the function of the ISS. NASA claims that this will allow them to focus on deep space exploration, which they consider to be a far more difficult task.

Conclusion:

The International Space Station (ISS) is a remarkable achievement in scientific discovery study and human interaction. Since its 1998 launch, it has enabled groundbreaking microgravity experiments that have advanced our knowledge of everything from human health to the universe. As NASA gets ready for a new era of privately run space stations, the ISS will eventually make way for new advancements. This change emphasizes humanity's ongoing space exploration, which leads to further research and education. The future is bright as long as we continue to aspire high!

FAQ:

What is the purpose of the International Space Station (ISS)?

For scientific space research and international collaboration in space, the ISS serves as a microgravity research laboratory.

How many countries are involved in the ISS program?

Participating countries: The ISS program includes the US, Russia, Europe, Japan, and Canada.

How long do astronauts stay on the ISS?

Duration of stay: Astronauts often remain aboard the ISS for up to six months.

What kinds of experiments are conducted on the ISS?

The ISS conducts experiments on a wide range of subjects, such as human health, material science, biological systems, and environmental studies.

What will happen to the ISS in the future?

Subsequent of the ISS: After the ISS missions are decommissioned by the end of 2030, it is expected that private companies would operate subsequent space stations.

#businessfortune #bizfortune #astronouts #iss

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futuristicpaintercat · 10 months ago

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Crawler Camera System Market Anticipated to Witness High Growth Owing to Increasing Infrastructure Inspection Needs

Crawler camera systems, also known as pipe crawlers or micro duct cameras, are self-propelled inspection cameras used for non-destructive testing of pipelines, tunnels and confined spaces. These compact robotic systems consist of a lightweight camera head attached to multiple small wheels or legs that allow them to travel through narrow spaces. Crawler camera systems offer unique advantages over traditional manual inspection methods such as providing real-time images and video feed to remotely located operators, facilitating inspection of long pipelines without disruption of services, and ensuring safety of inspectors by eliminating the need to enter hazardous confined spaces. The global crawler camera system market is estimated to be valued at US$ 154.3 Mn in 2024 and is expected to exhibit a CAGR of 8.0% over the forecast period 2024 to 2031.

Increasing investments in development and maintenance of underground pipelines and infrastructure are the primary factors driving the demand for crawler camera inspection systems. Rapid urbanization and growth of smart cities have also amplified the need for periodic condition assessment of pipelines used for transportation of water, gas and electricity. Adoption of crawler cameras helps structure owners to efficiently comply with safety regulations and schedules mandated for pipeline inspection. Key Takeaways Key players operating in the Global Crawler Camera System Market Companies are AM Industrial (UK) Ltd., CUES Inc., Deep Trekker Inc., Envirosight LLC, iPEK International GmbH, Inspector Systems Rainer Hitzel GmbH, Inuktun Services Ltd., Kummert GmbH, Mini-Cam Ltd., Rausch Electronics USA, LLC, ROVVER X (by Envirosight), Subsite Electronics, Trelleborg AB, and Tufftruk. These players are focusing on new product launches and expansion of sales and distribution networks globally to consolidate their market position. Market Restraints High initial costs: Crawler camera systems have high capital requirements owing to incorporation of advanced imaging sensors, robotic actuators and other control equipment. This acts as a barrier for small-scale users and renters. Operational challenges: Adverse site conditions like poor lighting, presence of obstructions and debris inside pipelines pose challenges for maneuvering and positioning of crawler cameras during inspections. This often requires pre-inspection cleaning and equipment modifications.

Segment Analysis The Global Crawler Camera System Market Growth dominating sub segment is the video snake camera sub segment. This is because video snake cameras have advanced capabilities such as swiveling cameras that allow operators to navigate around obstacles and inspect difficult to reach areas. They are commonly used for underground pipeline inspections to detect internal corrosion, cracks, leaks or blockages. Global Analysis Regionally, the North America region is expected to dominate the global crawler camera system market during the forecast period. This is because countries in the region like United States and Canada have established infrastructure and are focussed on repair and maintenance activities of sewer pipes and underground utilities. The presence of major players and advanced technologies is also driving the crawler camera system market in North America. Asia Pacific is anticipated to be the fastest growing region owing to rising infrastructure development activities and increasing industrialization in countries like China and India. Countries are making heavy investments in transport, power and water utilities which is augmenting the demand for crawler camera systems for inspection activities in the region.

Get more insights on Global Crawler Camera System Market

About Author:

Ravina Pandya, Content Writer, has a strong foothold in the market research industry. She specializes in writing well-researched articles from different industries, including food and beverages, information and technology, healthcare, chemical and materials, etc. (https://www.linkedin.com/in/ravina-pandya-1a3984191)

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froggerskill · 11 months ago

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Logistics: Streamlining Efficiency in Supply Chain Management

Logistics is the backbone of supply chain management, encompassing the planning, implementation, and coordination of the movement and storage of goods, services, and information. From raw material acquisition to final product delivery, effective logistics is crucial for ensuring timely and cost-efficient operations.

Logistics's Significance in Business In the modern, international economy, logistics is essential for establishing connections between producers, suppliers, and consumers. Effective logistics operations can give a business a competitive edge, drastically cut costs, and improve customer satisfaction.

Principal advantages consist of:

Cost Reduction: Lower shipping and storage expenses are a result of streamlined logistical procedures. Better client Service: Accurate order fulfillment and prompt delivery increase client happiness. Increased Flexibility: Effective logistics systems adjust fast to shifts in supply and demand.

Key Components of Logistics

Logistics involves several critical components that work together to ensure smooth operations:

Transportation: Selecting the most efficient mode of transport—air, sea, rail, or road—to move goods.

Warehousing: Storing goods safely and efficiently to ensure they are available when needed.

Inventory Management: Balancing stock levels to meet demand without overstocking or stockouts.

Order Fulfillment: Processing and delivering customer orders accurately and on time.

Supply Chain Coordination: Collaborating with suppliers and partners to synchronize activities and optimize the entire supply chain.

Strategies for Optimizing Logistics

Implementing effective logistics strategies can dramatically improve supply chain performance. Here are some key strategies:

Adopt Advanced Technology: Utilize logistics management software, GPS tracking, and automated systems to streamline operations.

Enhance Visibility: Implement real-time tracking and reporting to monitor the movement of goods and identify potential issues early.

Optimize Routes: Use route optimization tools to minimize travel distance and time, reducing fuel costs and improving delivery speed.

Leverage Data Analytics: Analyze logistics data to identify trends, forecast demand, and make informed decisions.

Sustainability Practices: Incorporate eco-friendly practices such as reducing emissions, using energy-efficient vehicles, and optimizing packaging to minimize waste.

The Future of Logistics

The logistics industry is continuously evolving, driven by advancements in technology and changing market demands. Future trends include:

Automation and AI: Increasing use of robotics and artificial intelligence to automate repetitive tasks and improve decision-making.

Blockchain Technology: Enhancing transparency and security in logistics transactions.

Drones and Autonomous Vehicles: Exploring innovative delivery methods to speed up and reduce the cost of last-mile delivery.

Green Logistics: Emphasizing sustainable practices to meet regulatory requirements and customer expectations.

Conclusion

Any company that produces and distributes things must have efficient logistics to be successful. Businesses may cut costs significantly, boost customer happiness, and keep a competitive edge in the market by streamlining their logistical operations. Businesses need to keep ahead of trends in order to take advantage of new possibilities and solve growing obstacles as the logistics industry continues to innovate and adapt.

#logistics #supply chain management #logistics meaning #sap course in supply chain management

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nereussubsea · 1 year ago

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Why Is Underwater Propeller Polishing is Important ?

Shipping is the most efficient mode of transport, essential to meet the demands of globalization. To ensure efficiency and minimize downtime, vessels must adhere to stringent maintenance measures. This maintenance is crucial for smooth operations and compliance with international regulations, ensuring vessels can travel through different national waters without issues.

Classifications societies emphasize the importance of safe and efficient operations, highlighting the need for underwater ship repair or underwater cleaning, including hull maintenance, underwater propeller polishing, and rudder repair. These measures ensure that vessels operate at peak performance, reducing the risk of delays and costly repairs.

Nereus Subsea, a leading maritime company in Singapore with branch offices in UAE and Greece, offers top-notch underwater propeller polishing services, ensuring optimal vessel performance. Their expertise in underwater ship repair and marine services makes Nereus a trusted partner for maritime companies seeking to maintain their vessels in excellent condition.

The Importance of Underwater Propeller Polishing

Vessels that partially reside in seawater or freshwater are prone to fouling by marine or aquatic organisms. Biofilms form on submerged structures like propellers, rudders, and sonar housings, significantly reducing a vessel’s efficiency. These biofilms act as a glue, allowing marine organisms to attach and grow, which increases drag and decreases fuel efficiency. A dirty propeller or hull can lead to prohibitions from entering various national waters, making underwater ship repair and maintenance critical.

Reasons for Increased Propeller Roughness

Propeller and hull roughness, caused by fouling, mechanical damage, and corrosion, affects vessel performance, increasing fuel consumption and reducing voyage efficiency. The effects of roughness on the propeller and hull are significant, impacting thrust, torque, and cavitation patterns under various operating conditions. Addressing these issues through regular maintenance is crucial for maintaining optimal performance.

Contact Nereus Subsea for expert marine services in Singapore with branch offices in UAE and Greece

Several factors contribute to propeller roughness:

– Hull Material and Construction Quality: The materials used and the quality of construction can impact the smoothness of the hull and propeller.

– Mechanical Damage: Operational damage can lead to rough surfaces that increase drag.

– Fouling and Biofouling: Marine organisms attach to the surfaces, increasing roughness.

– Paints and Coatings: The application method and quality of paints and coatings can affect the surface smoothness.

– Corrosion and Pitting: Corrosion over time can create pits and rough areas on the propeller and hull.

Addressing these factors through regular cleaning and maintenance helps ensure vessels operate efficiently, saving fuel and reducing operational costs.

Methods Used for Underwater Propeller Polishing

Various cleaning methods, including rotary brushes, high-pressure water jets, ultrasonic technology, and laser cleaning, are employed to maintain propeller and hull surfaces. These methods effectively remove fouling and restore smooth surfaces, improving efficiency.

– Rotary Brushes: Used for mechanical cleaning, effectively removing biofilms and fouling organisms.

– High-Pressure Water Jets: Powerful jets remove fouling without damaging the surface.

– Ultrasonic Technology: Uses sound waves to clean surfaces without physical contact.

– Laser Cleaning: Employs laser technology to remove fouling precisely.

Underwater robots in propeller polishing enhance safety and efficiency, freeing divers from heavy work and providing consistent results. These robots are equipped with advanced tools to perform cleaning and polishing tasks effectively.

Regular underwater maintenance, both during drydocking and underwater, ensures vessel compliance with international regulations. During drydocking, propellers undergo high-pressure seawater washes, hand scraping, polishing, and greasing to remove fouling and correct surface roughness. Propeller super polishing, performed every six months, uses hydraulic hand motors with coarse polishing pads, significantly enhancing propeller quality.

Nereus Subsea excels in propeller cleaning, ensuring compliance with international regulations for vessels entering international waters. Their expertise in propeller polishing and marine services ensures that vessels remain in top condition, ready to meet the demands of global trade. For exceptional underwater propeller polishing and marine services, contact Nereus Subsea.

By maintaining clean propellers, vessels can achieve better fuel efficiency, reduce operational costs, and extend their service life. Regular maintenance not only ensures compliance with regulations but also contributes to the overall overall sustainability of the maritime industry.

#ship repair #marine service #shipping #maritime

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iccaglobal · 1 year ago

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Pancreatic Cancer Treatment Center in Mexico: Advanced Care and Hope

Introduction

Pancreatic cancer is one of the most challenging cancers to treat due to its aggressive nature and late detection. However, Mexico has emerged as a destination for advanced pancreatic cancer treatment, offering cutting-edge medical care, innovative therapies, and compassionate patient support. This article explores the benefits and unique aspects of seeking treatment for pancreatic cancer in Mexico.

Advanced Medical Facilities

Mexico is home to state-of-the-art medical facilities that rival those found in the United States and Europe. Leading hospitals and cancer treatment centers are equipped with the latest diagnostic tools, surgical technology, and radiation therapy equipment. Pancreatic Cancer Treatment Center In Mexico These facilities are accredited by international health organizations, ensuring that patients receive high-quality care in a safe environment.

Expert Oncologists and Multidisciplinary Teams

One of the key advantages of seeking treatment in Mexico is access to experienced and highly skilled oncologists. Many of these specialists have trained and practiced in top medical institutions worldwide. Treatment centers in Mexico employ a multidisciplinary approach, involving teams of oncologists, surgeons, radiologists, pathologists, and other specialists. This collaborative effort ensures that each patient receives a comprehensive and personalized treatment plan.

Innovative Treatment Options

Mexico’s pancreatic cancer treatment centers are at the forefront of medical innovation. Patients can benefit from a wide range of treatment options, including:

Surgical Interventions: Advanced surgical techniques, such as minimally invasive surgery and robotic-assisted surgery, improve recovery times and outcomes. Surgeons in Mexico are adept at performing complex procedures like the Whipple procedure (pancreaticoduodenectomy), which is crucial for treating pancreatic cancer.

Chemotherapy and Targeted Therapy: Cutting-edge chemotherapy regimens and targeted therapies are available, tailored to the genetic profile of the patient’s cancer. These therapies can help shrink tumors and control the spread of cancer cells.

Radiation Therapy: High-precision radiation therapy, including stereotactic body radiotherapy (SBRT) and intensity-modulated radiation therapy (IMRT), offers effective treatment while minimizing damage to surrounding healthy tissues.

Immunotherapy: Emerging as a promising treatment, immunotherapy harnesses the body’s immune system to fight cancer cells. Some centers in Mexico offer access to clinical trials and innovative immunotherapy options that are not yet widely available elsewhere.

Holistic and Supportive Care

Recognizing the importance of addressing the emotional and psychological needs of patients, Mexican treatment centers provide holistic care. This includes nutritional support, pain management, psychological counseling, and complementary therapies such as acupuncture and meditation. By addressing the whole person, these centers aim to improve the overall well-being and quality of life for patients and their families.

Cost-Effective Treatment

One of the significant advantages of seeking treatment in Mexico is the cost-effectiveness. Medical care in Mexico can be substantially more affordable than in the United States, without compromising on quality. This affordability extends to all aspects of treatment, including surgery, Cancer Centers Treatment Of America medication, hospital stays, and follow-up care. Additionally, many treatment centers offer comprehensive packages that include accommodation, transportation, and post-treatment support.

Accessibility and Travel Convenience

Mexico’s proximity to the United States and its well-developed travel infrastructure make it a convenient destination for medical treatment. Major cities like Mexico City, Guadalajara, and Monterrey are easily accessible by direct flights from numerous U.S. cities. Furthermore, many treatment centers have dedicated international patient departments to assist with travel arrangements, medical visas, and language barriers.

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taurus-official · 4 years ago

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My partner was drawing fanart for a show they like. I overanalyzed it. They wanted me to share. This post is very long.

The show is called Bolts and Blip. It was made in 2010, and ran just one season into 2011. The initial premise I was told was that robots competed in sports on the moon to solve disputes that happened on earth.

Initially I thought this was an odd way for democracy to operate, but hey, I don’t make decisions for the government, so moon robot sports is how things were.

This intrigued me for a few reasons, such as

It takes place in a post-war era of “world peace”, in approximately 2080. Judging how things are going now, I find the concept of 2080 being after a world war very believable.

There was seemingly one democracy on earth now, and that democracy decided unanimously to settle all further disputes via moon robot sports, as stated.

Humanity was technologically advanced enough at this point to not only create robots that could play sports, but they played these sports in a large city on the moon!

My initial question was this: Do we know who built the robots?

Yes of course, its common knowledge on the moon. Just two scientists are responsible for all the robotic life on the moon, creating a number of robots in the ballpark in the thousands. This is a lot of moon robots.

There is a need for so much raw material to create even a thousand robots, enough for a civilization, NOT TO MENTION the massive city they all inhabit. Where they probably don’t get new shipments of materials on the reg, this would mean the scientists could continue making more until they ran out of resources.

However, besides these main robots, one of the scientists also created a race of at least 100 robot leprechauns living under the ground. Or, at least... One of the leprechauns.

Then, allegedly, this one robot created more than a hundred more. I do not know when the first robot leprechaun was created, but I fear for the safety of the human race if there was any interplanetoid travel between the earth and the moon while they existed.

The resources sent to the moon for the purposes of making robots would be very finite. Thus, if these scientists created the robot leprechauns before they had used the resources up, the leprechauns could apparently self replicate using the materials on the moon. This is how there became more than a hundred of them.

This may not be the case, but if a single one of the sublunarean self replicating leprechaun robots happened to board a spaceship that was heading for Earth... With a near infinite supply of resources, enough to spare on moon robot sports, the number of leprechaun robots would quickly grow. The earths infrastructure could be at risk. I’m talking sinkholes that are miles wide. Why?

Because the leprechauns were programmed and built for the moons gravity. The leprechauns create more of themselves on earth, as many as they are able to, but are still programmed for the moons gravitational density. The Earth is much heavier, and when the build their subterranean halls, they would not know that our planets density is more prone to collapse. Catastrophe.

But even that is purely conjecture, because Earth is never once seen in the show. Let me get back to what we know.

The leprechaun robots, as well as the main race of robots were all created by one man. Dr. Tommy, colloquially known as the ‘good’ scientist. The ‘bad’ scientist is called Dr. Blood, which is a kickass name 7 days a week. I will explain why there are ONLY two humans on the moon shortly.

The primary species of robots that Dr. Tommy makes participate in team based sports, interpersonal relationships, jokes, goofs, and gambits. The concept of Artificial Intelligence making jokes, playing sports, and creating bonds is not unheard of, or at least, it might not be in 2080. However, my next questions make me think these robots were not AI. My questions were:

Do the robots have the concept of death?

Do the robots ever say the word ‘heck’?

To both of these, the answer was a horrifying yes.

Yes, it is confirmed, that robots on the moon say heck. The implications of this are astronomical. I will spell it out thoroughly because lockdown has given me endless time with which I can do as I please.

Heck is, of course, derived from the word hell. Hell is the counterpart to heaven, both terms used to signify the existence of an afterlife. Where there is the word heck, there are beings that believe in the afterlife.

These robots have souls.

The circumstances in which these robots die, which they are entirely able to do because of their soul, is such: The Reformatter. To simplify, the Reformatter grinds the entirety of the robots body to scrap, which it then melts together to make household appliances. This is what happens to robots who are not ‘good enough’ in society.

What the nightmarish fuck.

Not only do the souls of the robots face heaven and hell, they also face being reformatted to become the brave little toaster if they do not serve their society.

Their society which is made by one human

Let me emphasize this; they treat him like he is unto a god. How can they not? He created them, their world. He is their father, their everything. They even built a statue of him, holding an enormous double sided wrench which is clearly symbolic to remind them.

Dr. Tommy gives life, and it can be taken away.

The method of which he gives life is a puzzlement to me. I am told that our dear Dr. Tommy refers to a robots as having a ‘Heart’. This Heart is described to me as a magical piece of leprechaun gold, so the robots are able to feel.

The robot Heart is likely a simplification. The show is advertised as a Family show, and must cater to the understanding of all ages, including small children. Breaching the topic of souls, mortality, and the afterlife likely wasn’t something the writers or creator were able to do. My theory is, the Heart is a future technology that can instill a soul into a robotic body,

Which, wow. Big, if true. At first I was boggling at the concept of manufactured souls being a technology that humanity could see in my lifetime, but then I remembered one of the three key pieces of knowledge I was initially given.

“It takes place in a post-war era of “world peace”"

....Throughout human history, one social class is legally subjected to inhumane treatment; Prisoners. Once you are in jail, internment camps, concentration camps, those that are keeping you there believe you have less rights as a person. Medical experimentation, slavery, abuse, forced sterilization, nothing is illegal.

And after a war like the doozy Earth must’ve recently went through, there must be a lot of war criminals. Those that were so engulfed in carnage and bloodshed, there was no way for them to reenter society. The newly forming singular government, if they had access to the necessary technology, may have used it on these criminals.

Think about it. The dust settles from an all out world war. There cannot be peace without someone to shoulder the blame of the atrocities. There must be an evil, if there is to be peace. So, the individuals who excelled in war and killing became the reason there was war and killing. These people are now less than human for what they’ve done. They can be treated as such.

I think this is when their souls were taken. As each warrior passed, their spirit was caught and kept. And then, in a classic move from 1788-1868, they transported all the criminals to somewhere they would never harm humanity again. Somewhere out of the way, remote, and it was the moon. You knew where this was going, they sent all the souls to the moon.

Along with a large amount of other people! The two scientists certainly did not build an entire moon colony on their own, and at this point, the robots were not even in production yet. The moon colony was made, and then the scientists began their work.

Starting with the leprechauns, who I believe were not made from the souls of war criminals. The first one may have been another scientist, the one responsible for creating the ‘Hearts’ in the first place. This is why that one knows how to create more of itself.

Then, the robots were made. There would have been a prototype, but let me focus on what the show covers for a bit.

The sports that these robots engage in is between two existing teams, complete with names, colors, and esprit d’corps. These games vary from episode to episode, some involving hang gliders, some with miniature fighter jets, some involve a battle with guns... that squirt water. The logic there is that if they are hit with the water, they rust and die. Which, okay. Right.

But a lot of the games and sports they play seem to be quite combat based. Furthermore, the robots seem to take to them naturally.

Not to mention, there are bomb mice and big laser guns as well. These robots are armed. Why the hell are these robots armed? Who thought it was a good idea? After all, these robots are clearly capable of malice still. Why wouldn’t they simply turn violent against the humans?

I think they did. Here’s my theory of how it went down.

Dr. Tommy begins using the souls of war criminals in a prototype of robot

The robots can recall their life on earth as humans, but are now trapped in metal vessels because their bodies have been destroyed

The robots begin reacting to the existential nightmare of being soul trapped

Some despair and destroy themselves

Some are enraged and destroy humans

Most of them, actually

Most of them turn their wrath against humans

The people who inhabited the moon, who created the cities, were suddenly under attack by the most skilled killers around.

This is when Dr. Tommy hits the kill switch for these robots. They are recycled, and maybe he even collected the souls again but maybe Dr. Blood took those ones.

These happenings left only two humans left on the moon. Dr. Tommy began making a new version of robots, who’s souls could not remember their time on Earth. Perhaps, in taking away everything about their humanity, he gave them the most innocence of anyone.

These robots now know that

Dr. Tommy is good, for he created them

They must contribute to the society Dr. Tommy has made for them

If they fail to do so, they will not only die, but go to hell

Dr. Tommy is the good scientist. He doesn’t want the robots to be used for evil, he doesn’t want them to hate each other. Not like that Dr. Blood, who encourages these robots who have no memory of who they were before and might be able to unlock those memories to become more warlike.

However, look at what Dr. Tommy makes them do. The robots are still using their combat knowledge, independently of their memories of war on Earth. Their knowledge is being honed and enhanced, while the repercussions of their actions are not something they are privvy to. But, Dr. Tommy is the good scientist. The robots know this, because he said so.

Or because they will be obliterated and condemned if they go against his word.

It is also worth noting that the good doctor also usually lives remote from his creations, in a little space shuttle.

In conclusion. I believe Dr. Tommy is knowingly creating an army of supercombatant robots, imbued with the souls of the most bloodthirsty war criminals, that will do his every will. He intentionally killed every human on the moon colony that he could. I fear what this will mean for the future Earth of this show.

Final notes:

These robots, once their souls memory was wiped clean, would have no gender. Gender is a construct originally created to indicate what a persons sex characteristics were. Not only is that a spectrum on humans, but robots would not be given any such characteristics, nor would the concept of gender transfer over. All the characters seem to perscribe gender to themselves though, which was not something they were given at their ‘birth’. This makes none of them are cisgender, so every robot in the show is transgender.

Further cementing my belief that Dr. Tommy made these robots for combat is that at LEAST the main characters have “super” modes, where they become even more powerful and capable of succeeding in combat. What’s the hyper-killing mode for, Dr. Tommy? What’s it for?

The humans that were killed on the moon are still somewhere, probably frozen? One joke alluded to the characters being able to purchase human body parts (a stomach) in the run of their average day. Its very possible that the human anatomy is being extensively studied by the robots. Whether this is for medical purposes, or to more accurately kill humans, or to satisfy their innate bloodlust, I do not know.

I am also told that at the end of the only season, a space ship that is also a school bus arrives on the moon! It is full of children. Which. Oh god oh no.

I understand this turned into a grimdark internet theory of a cartoon. I also believe that, without the ability to think critically, we will never be able to come to rue understanding of our own nature. It is still a cartoon. My thoughts and words should be taken with a singular grain of salt, because I am a human who is often wrong. That being said, Andrew Knight, if you ever read this, let me know what you think.

#bolts and blip #cartoon #cartoons #theory #tw

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nasa · 6 years ago

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Celebrating Women’s History Month: Most Recent Female Astronauts

For Women’s History Month, NASA and the International Space Station celebrate the women who conduct science aboard the orbiting lab. As of March 2019, 63 women have flown in space, including cosmonauts, astronauts, payload specialists, and space station participants. The first woman in space was Russian cosmonaut Valentina Tereshkova who flew on Vostok 6 on June 16, 1963. The first American woman in space, Sally Ride, flew aboard the Space Shuttle STS-7 in June of 1983.

If conducted as planned, the upcoming March 29 spacewalk with Anne McClain and Christina Koch would be the first all-female spacewalk. Women have participated in science on the space station since 2001; here are the most recent and some highlights from their scientific work:

Christina Koch, Expedition 59

Christina Koch (pictured on the right) becomes the most recent woman in space, launching to the space station in mid-March to take part in some 250 research investigations and technology demonstrations. Koch served as station chief of the American Samoa Observatory and has contributed to the development of instruments used to study radiation particles for the Juno mission and the Van Allen Probe.

Anne McClain, Expedition 57/58, 59

Flight Engineer Anne McClain collects samples for Marrow, a long-term investigation into the negative effects of microgravity on the bone marrow and blood cells it produces. The investigation may lead to development of strategies to help prevent these effects in future space explorers, as well as people on Earth who experience prolonged bed rest. McClain holds the rank of Lieutenant Colonel as an Army Aviator, with more than 2,000 flight hours in 20 different aircraft.

Serena M. Auñón-Chancellor, Expedition 56/57

Serena Auñón-Chancellor conducts research operations for the AngieX Cancer Therapy inside the Microgravity Science Glovebox (MSG). This research may facilitate a cost-effective drug testing method and help develop safer and more effective vascular-targeted treatments. As a NASA Flight Surgeon, Auñón-Chancellor spent more than nine months in Russia supporting medical operations for International Space Station crew members.

Peggy Whitson, Expeditions 5, 16, 50, 51/52

Astronaut Peggy Whitson holds numerous spaceflight records, including the U.S. record for cumulative time in space – 665 days – and the longest time for a woman in space during a single mission, 289 days. She has tied the record for the most spacewalks for any U.S. astronaut and holds the record for the most spacewalk time for female space travelers. She also served as the first science officer aboard the space station and the first woman to be station commander on two different missions. During her time on Earth, she also is the only woman to serve as chief of the astronaut office. Here she works on the Genes in Space-3 experiment, which completed the first-ever sample-to-sequence process entirely aboard the International Space Station. This innovation makes it possible to identify microbes in real time without having to send samples back to Earth, a revolutionary step for microbiology and space exploration.

Kate Rubins, Expedition 48/49

The Heart Cells investigation studies the human heart, specifically how heart muscle tissue contracts, grows and changes its gene expression in microgravity and how those changes vary between subjects. In this image, NASA astronaut Kate Rubins conducts experiment operations in the U.S. National Laboratory. Rubins also successfully sequenced DNA in microgravity for the first time as part of the Biomolecule Sequencer experiment.

Samantha Cristoforetti, Expedition 42/43

The first Italian woman in space, European Space Agency (ESA) astronaut Samantha Cristoforetti conducts the SPHERES-Vertigo investigation in the Japanese Experiment Module (JEM). The investigation uses free-flying satellites to demonstrate and test technologies for visual inspection and navigation in a complex environment.

Elena Serova, Expedition 41/42

Cosmonaut Elena Serova, the first Russian woman to visit the space station, works with the bioscience experiment ASEPTIC in the Russian Glavboks (Glovebox). The investigation assessed the reliability and efficiency of methods and equipment for assuring aseptic or sterile conditions for biological investigations performed on the space station.

Karen Nyberg, Expedition 36/37

NASA astronaut Karen Nyberg sets up the Multi-Purpose Small Payload Rack (MSPR) fluorescence microscope in the space station’s Kibo laboratory. The MSPR has two workspaces and a table used for a wide variety of microgravity science investigations and educational activities.

Sunita Williams, Expeditions 32/33, 14/15

This spacewalk by NASA astronaut Sunita Williams and Japan Aerospace Exploration Agency (JAXA) astronaut Aki Hoshide, reflected in Williams’ helmet visor, lasted six hours and 28 minutes. They completed installation of a main bus switching unit (MBSU) and installed a camera on the International Space Station’s robotic Canadarm2. Williams participated in seven spacewalks and was the second woman ever to be commander of the space station. She also is the only person ever to have run a marathon while in space. She flew in both the space shuttle and Soyuz, and her next assignment is to fly a new spacecraft: the Boeing CST-100 Starliner during its first operational mission for NASA’s Commercial Crew Program.

Cady Coleman, Expeditions 26/27

Working on the Capillary Flow Experiment (CFE), NASA astronaut Catherine (Cady) Coleman performs a Corner Flow 2 (ICF-2) test. CFE observes the flow of fluid in microgravity, in particular capillary or wicking behavior. As a participant in physiological and equipment studies for the Armstrong Aeromedical Laboratory, she set several endurance and tolerance records. Coleman logged more than 4,330 total hours in space aboard the Space Shuttle Columbia and the space station.

Tracy Caldwell Dyson, Expedition 24

A system to purify water for use in intravenous administration of saline would make it possible to better treat ill or injured crew members on future long-duration space missions. The IVGEN investigation demonstrates hardware to provide that capability. Tracy Caldwell Dyson sets up the experiment hardware in the station’s Microgravity Science Glovebox (MSG). As noted above, she and Shannon Walker were part of the first space station crew with more than one woman.

Shannon Walker, Expedition 24/25

Astronaut Shannon Walker flew on Expedition 24/25, a long-duration mission that lasted 163 days. Here she works at the Cell Biology Experiment Facility (CBEF), an incubator with an artificial gravity generator used in various life science experiments, such as cultivating cells and plants on the space station. She began working in the space station program in the area of robotics integration, worked on avionics integration and on-orbit integrated problem-solving for the space station in Russia, and served as deputy and then acting manager of the On-Orbit Engineering Office at NASA prior to selection as an astronaut candidate.

Stephanie Wilson, STS-120, STS-121, STS-131

Astronaut Stephanie Wilson unpacks a Microgravity Experiment Research Locker Incubator II (MERLIN) in the Japanese Experiment Module (JEM). Part of the Cold Stowage Fleet of hardware, MERLIN provides a thermally controlled environment for scientific experiments and cold stowage for transporting samples to and from the space station. Currently serving as branch chief for crew mission support in the Astronaut Office, Wilson logged more than 42 days in space on three missions on the space shuttle, part of the Space Transportation System (STS).

Other notable firsts:

• Roscosmos cosmonaut Svetlana Savitskaya, the first woman to participate in an extra-vehicular activity (EVA), or spacewalk, on July 25, 1984

• NASA astronaut Susan Helms, the first female crew member aboard the space station, a member of Expedition 2 from March to August 2001

• NASA astronaut Peggy Whitson, the first female ISS Commander, April 2008, during a six-month tour of duty on Expedition 16

• The most women in space at one time (four) happened in 2010, when space shuttle Discovery visited the space station for the STS-131 mission. Discovery’s crew of seven included NASA astronauts Dorothy Metcalf-Lindenburger and Stephanie Wilson and Japan Aerospace Exploration Agency (JAXA) astronaut Naoko Yamazaki. The space station crew of six included NASA astronaut Tracy Caldwell Dyson.

• Susan Helms shares the record for longest single spacewalk, totaling 8 hours 56 minutes with fellow NASA astronaut Jim Voss.

• Expedition 24 marked the first with two women, NASA astronauts Shannon Walker and Tracy Caldwell Dyson, assigned to a space station mission from April to September, 2010

• The 2013 astronaut class is the first with equal numbers of women and men.

• NASA astronaut Anne McClain became the first woman to live aboard the space station as part of two different crews with other women: Serena Auñón-Chancellor in December 2018 and currently in orbit with Christina Koch.

Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com

#women #womenshistorymonth #astronauts #stem #science #space #international space station #NASA #girlpower #Spacewalk #engineering

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fly-pow-bye · 5 years ago

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What’s Airing On Cartoon Network? (May 2020)

Yeah, sorry I forgot about all of this. All of the new episodes this month after the break.

Bakugan Battle Planet

May 3rd:

Haunted House/Two of a Kind - Haunted House: Rumor has it that there's a haunted building in Los Volmos, and the Awesome Brawlers are on the case! Who doesn't like a good ghost hunt, plus capturing a ghost on camera should make Awesome Brawlers' next video a huge success!/Two of a Kind: Veronica Venegas is doing a special report on the Awesome brawlers own: Lightening! The special report takes a back seat when Lightening is challenged to a brawl. Lightening uses this brawl the perfect opportunity to rollout his new Bakugan partner: Tretorous. (6:30 AM)

May 17th:

Magnus P.I., Parts 1 & 2 - There's a been a string of thefts and each one has involved a Bakugan. The AAAnimus security force have decided the only brawler who could be responsible is: Magnus. The shock of this accusation sets Magnus off to takes justice in his own hands and go after the thief himself./Magnus foils the latest burglary attempt by the phantom thief, and in doing so, discovers the brawler partners with a golden Bakugan. Magnus is now more interested in a brawl, than stopping any crime. (6:30 AM)

May 24th:

Awesome Brawlers Training Camp, Parts 1 & 2 - The Awesome Brawlers head to a training facility owned by Kasami International to prepare for the Bakugan Battle League - Los Volmos. But once the gang figures out they will all be competing against each other for the same title, the "team building" retreat doesn't quite go as planned./Agit turns up at the Kasami training facility and fits right in with the Awesome brawlers. This is a lifestyle that he can get used to, but it becomes apparent Agit is torn between a life as a phantom thief and life as a brawler. (6:30 AM)

May 31st:

The Bakugan Battle League Begins/Riot vs. Ajit - The Bakugan Battle League Begins: The qualifying rounds for the Bakugan Battle league are taking place all around Los Volmos. The Awesome Brawlers all make it through into the tournament without a hitch, that is all but Dan. Dan faces an old rival in Trey, who's back with a few tricks up his sleeve./Riot vs. Ajit: The Bakugan battle league is finally here and 16 brawlers have qualified to enter including all the Awesome Brawlers. The first round will feature a brawl between China Riot and the golden Bakugan brawler, Agit! (6:30 AM)

Craig of the Creek

May 2nd:

The Cardboard Identity - Craig and his friends stumble upon a mysterious bunker made of cardboard beneath the Creek. (9:00 AM)

Ancients of the Creek - Craig, Kelsey and JP discover an ancient fort that belonged to the first kids in the Creek. (9:15 AM)

May 9th:

Mortimor to the Rescue - When Craig, Kelsey and JP get stranded in murky water, it's up to Mortimor to save the day! (9:00 AM)

Secret in a Bottle - Craig needs to get a secret off his chest, so he pays a visit to the Keeper of Secrets in the Creek. (9:15 AM)

May 16th:

Trading Day - After Craig accidentally destroys a shipment of rare Chocorolls at the Trading Tree, Kit makes him work off his debt by running her trades throughout the Creek! (9:00 AM)

Crisis at Elder Rock - Tragedy strikes the Creek when the Elders get trapped under Elder Rock, and it's up to Craig, Kelsey and JP to rescue them. (9:15 AM)

May 23rd:

Kelsey the Worthy - When Kelsey demolishes a wall at Craig's house, her father takes away her sword. So she enlists Craig and JP to help prove to her father that she's still worthy. (9:00 AM)

The End Was Here - Craig tries to figure out how an ancient war that decimated the Creek began in hopes of stopping history from repeating itself. (9:15 AM)

DC Super Hero Girls

May 3rd:

#CrashCourse - When a high-speed chase breaks out during her driver's test, Diana Prince's desire to fight evil clashes with her desire to undergo a World of Man teenage rite of passage, getting her license. (4:00 PM)

Power Players

May 3rd:

Winner Takes All - After months of training for Luchador Day, Axel needs Masko to coach him against a pair of uninvited competitors - Madcap and Dynamo! (7:30 AM)

Prepare for the Worst - Axel and Bobbie Blobby skip out on Sarge's disaster-prep drills, leaving enough of a gap in the team's defenses for a crow to swoop in and snatch Sarge! Feeling responsible, Axel leads the team on a search-and-rescue mission. (7:45 AM)

May 17th:

Stuck on You - Tired of Axel and the team taking him for granted, Masko tries to get kidnapped and ends up stuck to Dynamo, who's less than enthused with his rubbery new sidekick. (7:30 AM)

Opposites Attract - Claiming he's good at heart, Dynamo convinces Axel and the team to help him find a battery that can power his centrifuge and free him from Madtrap's control - but Bobbie Blobby isn't buying the baddie's story. (7:45 AM)

May 24th:

The Thing in the Wall - When Axel and the team accuse Galileo of stealing their possessions, the lizard must hunt down the true culprit - a mysterious creature behind the wall - to prove his innocence. (7:30 AM)

Madtrap - Madcap and Princess SugarSalt trap Axel and the team inside a Minergy-powered labyrinth that attacks them with their greatest fears, forcing them to work together and escape as a unit. (7:45 AM)

May 31st:

To Tame the Perilous Skies! - With Axel's drone-wing broken, the team must find another way to stop Madcap and his minions as they take to the skies in toy airplanes for an aerial assault on the city park. (7:30 AM)

Four Color Fallout - Axel, Galileo, and Sarge get Minergy-transported by Madcap into the pages of Axel's favorite comic book, the hero of which turns out not to be so cool after all. (7:45 AM)

Teen Titans Go!

May 25th:

Justice League's Next Top Talent Idol Star: Justice League Edition - The Justice League holds yet another talent competition, only this time they're facing off against the Titans. In order to be the most talented superhero team in the DC universe, Robin and Beast Boy must work together on a jazz performance. (6:00 PM)

ThunderCats Roar

Sorry, no descriptions for the last two episodes yet. In fact, the only reason why there’s descriptions at all is because most of these were See It Firsts, as is tradition for ThunderCats Roar.

May 2nd:

Summer Fun Day - The Thundercats are exhausted from fighting bad guys all the time so Lion-O suggests they spend a relaxing summer fun day at the beach, with no fighting! Unfortunately the beach is home to the Crabmen, giant, clawed humanoids that fight anyone who steps on their sand! Looks like summer fun day might involve some fighting! (10:30 AM)

Safari Joe - While minding her own business, Cheetara is caught in a trap set by Safari Joe, the famously annoying hunter! After escaping, she rallies the other ThunderCats to help her stop Joe once and for all, by turning the tables and capturing him! (10:45 AM)

May 9th:

Ratar-O - The ThunderCats have gotten so good at defeating the Mutants of Plun-Darr that it's basically become routine. That all changes with the arrival of the Mutants' old leader: Ratar-O, wielder of the Sword of Plun-Darr! Uh-oh! (10:30 AM)

Prince Starling's Quest - Lion-O is happily playing with Snarf in their "Frolicking Field" and doesn't have a care in the world, unfortunately he's accidentally stomping all over the miniature village of the Micrits! The tiny people want to defeat the "giant orange monster" but such a quest would require a brave hero. Luckily, the Micrits have such a hero: Prince Starling! Now, let us the tell you the epic tale of Prince Starling as he journeys to find the fountain of growth and defeat the wicked Lion-O, who has no idea any of this is going on! (10:45 AM)

May 16th:

Lion-S - Lion-O and the other ThunderCats are thrilled to meet a brand new Thunderian: Lion-S! She's cool, good at fighting robots and, most importantly, thinks Lion-O and his Sword of Omens are really neat and interesting! Looks like the ThunderCats have a new best friend! Maybe even, a new ThunderCat????? (10:30 AM)

Snarf's Day Off (10:45 AM)

May 23rd:

Mumm-Ra of Plun-darr (10:30 AM, half hour special!)

Total Dramarama

Ditto for this show.

May 2nd:

Beth and the Beanstalk - After having a chocolate bar confiscated by Chef, Beth finds herself in a parallel giant world and aims to get back her now giant chocolate bar. (10:00 AM)

Pinata Regatta - Izzy can't bring herself to smash a Pinata during the class' Cinco De Mayo celebrations. But when that unsmashed Pinata comes to life and spawns an evil Pinata Army, it's batter up. (10:15 AM)

May 9th:

A Dame-gerous Game - After Leshawna, Bridgette, Owen and Cody win a Hide & Seek competition, they're trapped on a private island by a jealous former champion and forced to play for their freedom. (10:00 AM)

Royal Flush - When the other kids fear Harold has accidentally flushed himself down Chef's fancy new toilet, they travel into the sewer on a rescue mission. But will they find Harold before the mythical Alligator King traps them underground forever? (10:15 AM)

May 16th:

Total Eclipse of the Fart (10:00 AM)

May 23rd:

Dissing Cousins (10:00 AM, half hour special!)

Transformers Cyberverse

...and ditto here, too!

May 3rd:

Enemy Line - While Optimus struggles to be a leader in peace-time, Bumblebee undertakes a daring mission into Decepticon territory. (7:00 AM)

May 17th:

Thunderhowl - Bumblebee and Chromia travel to Crystal City to recover one of Windblade's psychic shards and encounter a long-lost bot. (7:00 AM)

Wild Wild Wheel - A dangerous lone gunslinger named WildWheel returns to Cybertron looking for Optimus Prime. (7:15 AM)

May 24th:

Alien Hunt! With Meteorfire and Cosmos - Bumblebee enlists washed-up TV show host Meteorfire to help him find another of Windblade's psychic shards on Luna-3. (7:00 AM)

Journey to the Valley of Repugnus - Bumblebee and Grimlock are separated as they search the depths of Cybertron for another of Windblade's psychic shards, encountering the Monsterbots and the Energon Masters. (7:15 AM)

May 31st:

Rack N' Ruin N' Ratchet (7:00 AM)

Dweller in the Depths (7:15 AM)

Victor and Valentino

May 2nd:

My Fair Achi - V&V enter Achi in a dog show competition to win a golden trophy, but their overbearing ways drive Achi to the edge. (9:30 AM)

Oddities - When a mysterious carnival barker fuses V&V together, they must find a way to come unstuck. (9:45 AM)

May 9th:

I.....am Vampier - When Vic enters the Monte Macabre film festival, he gets insecure about his artistic vision and decides to copy the work of others, but ultimately learns that staying true to yourself is what's most important. (9:30 AM)

Victor the Predictor - When Victor becomes convinced he has a special talent as a psychic, he decides to use his new mental abilities to counsel those around him - until one piece of advice goes too far. (9:45 AM)

May 16th:

Kindred Spirits - When Val becomes friends with the ghost of a silent film star, their friendship turns out to have dire consequences. (9:30 AM)

Decoding Valentino - When Val goes on an adventure with Isabella to decode an ancient language, he has to come to terms with the fact that Isabella is smarter in order to save himself. (9:45 AM)

May 23rd:

Journey to Maíz Mountain - When Victor and Valentino destroy Monte Macabre's corn supply, they journey to Maíz Mountain with Sal to replace it. But in order to get the corn, they must shrink down to the size of ants and embark on a mythical adventure that they'll never forget! (9:30 AM, half hour special!)

#bakugan #bakugan battle planet #craig of the creek #dc super hero girls #power players #teen titans go #thundercats roar #total dramarama #transformers #transformers cyberverse #victor and valentino #fpb news #cartoon network

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emperorsfoot · 6 years ago

Link

Entrapta in this chapter be like:

Hordak didn’t know where he was.

For half a moment, he wondered if another portal had opened up and inexplicably transported him to yet another alien planet. This did not look like any of the places on Etheria he’d ever seen.

He stepped through thick mists, swirling with color. Feeling lighter on his feet than he’d ever felt before in his life. Almost as if he were floating.

The pain in his face and in his neck was gone, not even the ghost of sensation there. As if he’d never been wounded by Catra in the first place. And when he reached a hand up to touch his face, he felt only healthy skin. Not dry and waxy as he had been for decades now, but soft and supple. Smooth. Without scars.

Music drifted to his ears from somewhere beyond the mists. A familiar haunting melody, though it took Hordak a moment to place where he’d heard it before. He listened to so little music in his lifetime. Mostly just what he overheard on alien worlds, what his own Etharian troops sang or played, and… and what Hode insisted his Force Captains should hear to understand an enemy.

That was where Hordak had heard this song before.

From Hode.

He followed the sound. As he drew closer, words became discernable from the melody.

“…And salvation, uncertain. “Redemption to find worth in. “Have all I’ve slain deserved it?”

Lyrics to a song Hordak was sure he’d only heard once. But it was during a significant meeting. And as he drew closer, he began to recognize the voice that sang it.

“From ashes, resurgence “To cleanse this ‘verse or burn it-“

It was his own voice, only slightly different. To the untrained ear, all Horde clones spoke with the same voice. But this one, to any other Horde clone, would sound different. This voice had trained itself for pitch and octave, to carry a tune and make… art. The kind of auditory art called music.

“My Lord.” Hordak blinked as the swirling colors of the mist that surrounded them parted to reveal his old mentor.

Lord Hode. Whom was very, very dead. Wearing the uniform Hordak always remembered him wearing, a tight combat suit with vintage overpants, simple boots, and arm bracers. But the emblem of the Horde was missing from the chest. He was wearing his long dark cape, but the hood was down. Hordak could see Hode’s face. He saw his Lord with the hood down so rarely.

The fact that Hordak was meeting Hode again could only mean one thing. “Catra killed me.”

Hode placed his hand flat over the strings of the instrument he played, to silence the sound. He laid the neck of the alien instrument across his lap and regarded the younger clone –although, ‘young’ was not quite so accurate anymore. The age gap between them had narrowed since Hode’s death, while Hordak remained alive and continued to age.

“By the Host, Zero-Zero-Three, you’re even thinner than the last time I saw you!” Hode observed.

Hordak flushed. Or, rather, he felt the sensation in his face that usually meant the color was rising in his cheeks. Being dead and all, he didn’t know if he actually could flush self-consciously anymore. His blood did not flow, why should the blood rise in his cheeks? Instead of offering excuses for his waif-like frame, he instead decided to correct his former Lord on his designation. He wasn’t a number anymore. He had a name.

“Hordak.”

“’Hordak’.” He echoed. “Terrible name. But if it’s yours it’s yours. Who am I to tell a brother what he should or shouldn’t name himself.”

Not knowing what to say to that, Hordak decided to ignore the comment. Instead he looked around them. Mist, and clouds, undulating with color. This certainly resembled a metaphysical realm. But it was not what Hordak was expecting from a world for the dead. It was not what he was expecting for the world of their dead.

“Where are all our brothers?” He asked. “Where are the legions of the All High Host?”

“Ah, that.” Hode leaned back. Although, what he was leaning on was a bit unclear. Unless the mist around him suddenly gained more solid substance to support his weight. Did they even weigh anything anymore? Being dead and all. “We did not go to join the All High Host.” He said as if this explained everything. “Instead we came here. This is the place for waiting.”

“Waiting?” Echoed Hordak. “Waiting for what?”

Hode looked at him a little confused. As if he didn’t understand why Hordak wouldn’t understand why he was here and not with the Host. “You’re the one who came here, Zero-Zero-Three. You tell me.”

…

At first, she thought Catra was right. That she was too late. That he had bled out. That Hordak was dead.

But just as she was about to pull her hand away, Entrapta felt the slightest of pulses. One small ‘ba…bump’. It was faint. Perhaps just the last impotent beat. It wasn’t like there was much left in him to pump. But it gave the Princess hope. If she could just get some fresh blood in him from a compatible donor…

“Mother…?”

Entrapta looked up.

Dak, the clone she made of Hordak, had followed her into the ship.

She looked around. This was a vessel meant for travel between worlds. It had to have some kind of medical room. A highly advanced medical room, where she could find the kind of tech she would need to do a transfusion.

“Pick him up and follow me!” She commanded.

“Him?” The hybrid blinked at her for a moment, not understanding. “The body? But, its dead.”

“He’s not dead!” Entrapta snapped. He couldn’t be dead. She felt a beat. A single beat of his heart. If his heart could still beat then he wasn’t dead. Besides, even if the heart had stopped beating by this point, he would’ve still been alive recently enough for her to save him and bring him back. “Carry him for me while I look for this place’s infirmary.”

Entrapta dashed out of the bridge without even looking to see if Dak was following her orders.

She found the writing on the walls. The geometric shapes of the First Ones sigils intersecting with others. Entrapta couldn’t read all of it, but she understood enough to know which lines to follow down the corridors to find the Infirmary. She almost missed the Infirmary door, however, passing right by the seem in the wall where the door fit in the frame. In fact, she would have missed it entirely if the LUVD crystal in her hand hadn’t glowed as she passed. Entrapta doubled back, holding the crystal up.

Apparently, this First Ones ship recognized the crystal as belonging to an Administrator of sorts. A fact she would have found fascinating and in need of further examination and study. However, at the moment, her priority was not new discovery and knowledge. At the moment her priority was saving the life of the best –and only- Lab Partner she’d ever had.

With the door open Entrapta disappeared into the Infirmary, only to stick her head back out again to see if her Intern had followed her directions and was bringing Hordak Sr. They were, Entrapta needn’t have worried. Dak was determined to please her –something she had been desperate to do for her own mother, something Hordak was desperate to do for his Big Brother, it seemed to be a unifying trait of the three of them. Dak supported the elder Hordak in their hair, the deceptively strong tendrils wrapping around the larger clone’s body, holding above Dak as they ran, trying to keep his back straight and head level. Entrapta noted that there was no blood dripping from Hordak’s body into Dak’s hair. His blood was not flowing anymore. His heart wasn’t beating.

At this exact moment, he was technically dead.

But that didn’t mean he was all the way dead. Just mostly dead!

If he was just ‘mostly’ dead, that meant he was still partly alive.

“Put him on the exam table!” Entrapta commanded. She swept her own hair over the table, knocking over packages of sterile wipes, and bottles of what smelled like antiseptic. “Wait a sec!” She held a hand up, a thought occurring to her. With her hair, she poured the antiseptic over the table and wiped the whole surface down with the sterile wipes. “Okay. Now, put him on the table.”

Dak complied. Laying the body down gentle. Lowing their hair, still trying to keep the body level so as not to strain the larger clone’s back, or wrench their neck. The spine was so delicate a part of the frame, yet so dramatically vital to constructing an erect robot. Dak imagined it could only be the same for an organic being like… this Hordak.

Entrapta looked around the Infirmary. There were machines all around them. Suspended from the ceiling above the exam table, standing independently and fitted on rollers to be moved around the room, fitted into the walls with display screens attached. But none of it was turned on, and Entrapta wasn’t sure how to activate them.

Every second was precious. The longer Hordak spent –dead- the less likely a chance for a meaningful recovery he had. The difference between ‘mostly dead’ and ‘all the way dead’ was only a few minutes.

“Entrapta, what are you-?” Adora had followed her as well.

The older woman all but pounced on her. “Adora! You can work First Ones tech faster than I can. Turn this stuff on! Help me save him!”

“Him?” Adora looked at the body on the exam table. “Hordak? But-“

She did not want to save Hordak. If he was dead, then all of Etheria’s problems were solved. Adora had nothing to lose from his death and everything to gain. Whatever feelings Entrapta had for him were not enough to earn him sympathy in her eyes. Not after what he did to her, both directly and indirectly simply by being on Etheria in the first place.

“I will not heal him with She-Ra’s sword.” She informed the older woman.

Entrapta blinked for a moment, her mind stumbling for a moment as it remembered that the Sword of Protection was ancient First Ones tech that the legends said possessed healing properties. She caught herself quickly, understanding the boundary the younger woman just set even if it just made her even hungrier to study She-Ra and the Sword of Protection. That was a matter for the future.

“Then don’t use the sword.” Entrpata tried to haggle. “Just turn on the equipment in this room. I’ll do everything else. Please.” She was begging now. “Help me save my- -my Lab Partner and I’ll…” she cast her brain around for something she could bargain with. What would Adora want from her? What did anyone ever want from her? The only thing anyone ever wanted from her. “Help me save Hordak and I’ll build weapons for you, and Brightmoon, and the Princess Alliance, for when Horde Prime comes. I imagine you’ll wanna fight him too.”

“W-what-?” Adora took a physical as well as metaphorical step back. “Horde Prime? The other Horde from outside Despondos?”

“What do you think Hordak was trying to do with his portal?” Entrapta raised herself up off the ground, the coils of her hair lifting her up higher than Adora, so that she was glaring down at the younger woman. “He couldn’t pass through, but he could get a message out to his Brother on the other side. Horde Prime will follow that message and open a portal from his side. Wouldn’t you rather be ready when he arrives?”

For half a second, the expression on Adora’s face was pure horror. Then she remembered. “You need a Sword to open a portal.”

In all honesty, Entrapta didn’t know if that was true or not. Certainly, you needed an Administrator Key –a Sword of Power- to open the portal from inside Despondos. But Hordak was also very certain that Horde Prime would be able to open a portal from his side. Entrapta mentally shrugged. She did not have enough data to offer a counter argument. Instead, she just held the younger woman’s gaze.

There must have been something in Entrapta’s face that convinced Adora that Horde Prime was a valid threat and her offer to help them prepare was a good bargain, because she relented. Ceding to the tech Princess. She uttered a command to the empty air and all the machinery in the Infirmary flared to life.

“Alien cadaver detected.” Announced a voice that seemed to emanate from the walls themselves. “Would you like to perform an autopsy?”

“No!” Entrapta snapped at the Infirmary celling. “Fix him! Bring him back!”

“Scanning for lifeform match.” Announced the voice. A beam came down from the machinery in the celling, spreading into a line of several as they reached the table. A single horizontal line of light. It scanned down Hordak’s body, then back up it again. “Scanning… scanning… scanning… Match found. Ninety-seven percent accuracy, Revenanti, of planet Revena, beta, fully mature adult, deceased. Would you like to preform an autopsy?”

“No!” Entrapta snarled again, slamming her hair on the exam table. “He’s not dead! He can’t be! I won’t let him! We just need to jumpstart his heart!”

“Initiating defibrillation on Revenanti cadaver.” Announced the room. “Please clear all hands and limbs from the body and table.”

Two tentacle-like cables slithered down from the array in the ceiling above the table and shocked Hordak’s prone body. Shocked it hard enough to trigger involuntary muscle spasms that made it seem like the body were trying to get up.

…

“You know, this was never the initial plan.” Hode informed him.

Hordak blinked at him. “What plan?”

“My plan.” The other clone answered as if this explained everything. “Or, our plan, I should say. My partner’s and mine. This wasn’t even the first contingency.”

Taking a moment to –pointedly- glance around at where why were, some version of an afterlife, not the All High Host, but still a realm of the dead. Hordak paused just to make sure his old mentor understood when he stated dryly. “Dying generally is not part of one’s own plans.”

“No. It’s not.” Agreed Hode. “But one must also acknowledge the possibility of dying and make a plan for that as well. As I explained in the message I left for you in my deamon.”

Hordak frowned. “Imp has not played me any message from you.”

Hode looked confused. “I have been dead for many years. My deamon should have played it for you.”

“I only received Imp… recently.” ‘Recently’ being both a relative term, but also an inaccurate one. Hordak was only reunited with his late mentor’s deamon shortly before they were both pulled through a portal and propelled onto Etheria. But that event was thirty Etherian years ago. Approximately fifteen Standard Imperial Years –give or take. Not exactly ‘recently’ at all.

“He didn’t give you my deamon?” The other clone looked concerned. “My partner, I mean. He was supposed to make sure the deamon went to you upon the event of my death.”

“If you are referring to the blue alien in the hood, he started to give me Imp, but then quickly deemed me ‘not ready’.” Hordak said with a bit of a snit. “When I saw him again on Eternia, I’m fairly certain he still did not want to give me Imp. But then, Imp and I were pulled into a portal and he was not. So that ended any argument before it could start. But in all the time Imp and I have been on Etheria, he has not tried to play me any message.”

Whatever Hode was going to say died on his tongue. At the mention of the word ‘Etheria’ his mouth dropped open. Staring at the younger clone, disbelieving. “Etheria!? It’s real!? You’ve been to Etheria?”

“Yes.” Confirmed Hordak, confused by his mentor’s sudden fervor. He had certainly never even heard of any planet called ‘Etheria’ before being inexplicably transported to Despondos and crashing on it. “It’s where I died.”

Surprising them both, Hode surged forward, grabbing Hordak’s shoulders with both this hands. “And the other sword! Did you find the other sword!?”

It was all the younger clone could do to blink at his mentor.

“Other sword?” Hordak only knew about one sword. The Sword of Protection. The sword of She-Ra. The administrator key to the planet. It was actually a little terrifying to imagine there being another one. “There is more than one?”

Hode sighed, leaning back from the other clone. He placed the heel of his hand to his forehead and gave a self-deprecating laugh. “He was right. Of course, this does us no good now. Even if you were alive, you couldn’t wield the sword. Only a descendent of King Grayskull can wield a Sword.”

What could either of them do with this information now?

Nothing. That’s what. The dead could do nothing.

They lapsed into silence.

Hode picked his instrument back up and began plucking a tune.

The Horde had no instruments and sang no songs. But Hode did. He collected art from multiple races, played at least two instruments that Hordak knew of, and sang. Hode was different from an average Horde clone. Not different like Hordwing was different, or different like he himself was different. Hode was atypical.

“My Lord, may I ask a question?” He began.

Talons stilled over the strings, the last few notes fading into the mist around them. “What’s troubling you?”

Hordak actually had so many questions. He opened his mouth to ask one.

But was suddenly cut off when he felt something inexplicably jerk him. His whole body being pulled off his feet. Did he even still have a body? He was sort of floating in a world for the dead. The term ‘body’ was relative. It was like an electric shock, like being punched in the heart. Only instead of knocking him back, it was pulling him away.

…

“Initiating defibrillation on Revenanti cadaver.” Announced the room. “Please clear all hands and limbs from the body and table.”

“Insufficient erythrocytes.” Declared the voice.

“He needs blood!” Entrapta snarled. Erythrocytes were the cells in blood that carried oxygen –or, in the case of Hordak’s species, nitrogen. Hordak didn’t just need blood, he need blood from a member of his own species. She turned towards Dak. “He needs you.”

“M-me?” Dak blinked glowing eyes. Apart from the color, they were identical to Hordak’s own. Although they couldn’t know that since Hordak’s eyes were currently half-lidded, the nictitating membrane of his second eyelid covering most of it, and the color was muted and dark without the bioluminescent glow behind it.

“Entrapta! No!” Adora was horrified.

“What’s going on?” Bow and Scorpia pushed their way into the room.

Scorpia carrying an unconscious but still very much alive Catra in her arms.

Bow being the unwilling perch for Imp as the little deamon surveyed the scene.

“Mother wants to give my blood to this Hordak.” Dak announced.

“Wait, what?” Scorpia was taken aback. She thought Entrapta and little Dak were making progress and bonding. At least, it seemed like they were bonding back on Beast Island in the First Ones command room. Then, on the ship with the songs… Was she wrong? Scorpia looked down at Catra in her arms. Reminding herself that her recent experiences with people she previously thought were close friends had taught her that she really did not read people as well as she thought she did.

Perched atop Bow’s head, Imp opened his mouth to remind everyone of what Dak was, and what their purpose for existing was. “Clone.”

“You can’t just take out all a person’s blood!” Adora announced. “People need their blood in their bodies!”

“Dak is just a child!” Scorpia reminded the tech Princess. “Dak still has things they can do. Hordak is old. He’s lived his life and made his choices. Just- -let him go.”

“I won’t!” Entrapta shouted at all of them. “You- out of all of you, Hordak was the only one who didn’t treat me differently. Hordak never said ‘Entrapta, no’, or ‘you can’t’. Hordak never tried to stifle my creativity or curiosity. He never talked down to me like each and every one of you has done. I’m twenty-seven years old, I’m almost thirty. I am the oldest person in this room –except for Hordak himself- and you all treat me like I’m some sort of child! But Hordak never did that! The only time he ever said ‘no, don’t’ was when he was pulling me out of the way of an explosion. I may not have knowing him for very long, but in the time that I did know him, he was a better friend to me than any of you! Scorpia might be my Best Friend, but Hordak is- Hordak is… my Special Friend!”

Everyone was struck silent by this announcement.

Adora knew Entrapta had feelings for the dark Lord of the Horde. She saw the word etched on his First Ones crystal the day the portal was opened. And she created a clone hybrid of the two of them. At the time, Adora had thought of Dak as more of a ‘child’ between them. To spite hearing the recordings in Entrapta’s own voice to the contrary. But now she was realizing that her own perceptions of Entrapta’s relationship with Hordak and the reality of Entrapta’s relationship with Hordak were on two very different levels of depth. Entrapta was willing to sacrifice a child if it meant bringing Hordak back.

“Now, we’re wasting precious time!” Entrapta snarled. “Dak, get on the table and give me your arm.”

Dak might be a child in all their eyes. But, to Entrapta, they were just another one of her experiments. Like a robot, but organic instead of mechanical.

“You can’t!” Still holding Catra, Scorpia tried to place her body between Entrapta and the hybrid.

“Move!” Entrapta snarled at her.

Imp screeched an agreement with the Princess. He wanted to see master saved as well.

For half a moment, Scorpia looked almost as betrayed by Entrapta as she did by Catra. She crossed an ocean for this woman. Broke into a Horde prison for this woman. Left the Horde for this woman. And she was trying to cut open and bleed out a child. Not just any child, but a child that Scorpia had pulled out of the abandoned cloning tank. A child that Scorpia breathed life into herself. A child she brought out of the Fright Zone. Dak wasn’t her child, not really. But she felt an affection for them that was most definitely familial, if not entirely maternal.

“Do we need all his blood?” Bow cut in suddenly.

Everyone turned to stare at him. Hordak was such a large person and Dak was so small in comparison. Not only would they need all of Dak’s blood, they might actually need more than Dak’s blood.

“I mean, we’re standing in a First Ones ship.” He reminded them all. “The First Ones have technologies so advanced, they honestly seem like another kind of magic. Why don’t we see if they can synthesize blood for Hordak? We’ll use Dak’s living blood as a sample, but a sample shouldn’t need very much. You can save Hordak without harming Dak.”

Adora nodded. Not fully understanding what Bow was trying to say, but understanding that it was a solution that would keep Entrpata from draining the child that helped them through their most recent adventures. “Ship, make more blood using a sample from Dak.”

“Command not recognized.” Announced the voice of the Infirmary.

“Try, ‘synthesize viable blood from adolescent sample’.” Entrapta suggested.

“O… kay…” Adora didn’t fully understand all the words in the strung together sentence, but when she repeated it, the ship’s computer seemed to understand.

A syringe lowered itself from the ceiling array on another cable-tentacle. Entrapta held Dak’s arm straight and helped the automated machine find a vein. It filled the syringe with thirty milliliters of blood. There was another pause as the machinery and computer analyzed the sample. Then another needle, this one on an intravenous tube, came down from the ceiling. This time aiming for Hordak’s immobile body. Entrapta guided this one into the vein as well. Blood started flowing into the body, but it did not circulate. His heart was still inactive. There was nothing to pump the synthetic blood for him.

“Shock him again!” Entrapta ordered.

“Do the shocking thing again.” Adora commanded the Infirmary.

“Command not recognized.” The computer voice informed them.

“Try defibrillate.” Bow suggested.

“Defibrillate.” Adora tried.

“Defibrillating Revenanti cadaver.” The computer complied. It was an AI, but the disembodied voice still had a tone as if it didn’t understand why the Administrator and these other organic beings were bothering trying to revive a corpse. “Please clear all hands and limbs from table.”

It shocked his heart again. Then again. And a third time. Each shock forcing his hear to beat at least once. Making it pump the synthetic blood through out his body. Carrying fresh nitrogen to his brain.

“Clear.”

…

Hode reached a hand out to the younger clone, not sure what he could do for his brother.

Hordak clawed at the older man’s outstretched hand, wrapping his long taloned fingers around his wrist, holding tight. The other hand clutched at his heart. “What is happening to me!?”

“I don’t- I don’t know!” Hode had to admit. Zero-Zero-Three might think that he had all the answers, but in fact, Lord Hode knew about as much or as little as any other soldier in the universe. “Maybe… maybe you’re not all the way dead? Maybe you’re just mostly dead.”

“What does that-?” He was cut off then another violent shock pulled him off his feet. He was being pulled away. Pulled back. But back where he didn’t know. “What does that mean!?”

Hode loosened his own hold of Hordak. Ready to let his brother go back if that was indeed what was happening. “Someone must be trying to save your life.”

“Impossible!” Hordak snarled back. No one living cared about him. Entrapta was on Beast Island and probably already dead. If not dead, then nowhere near his body, certainly not in a position to save his life. He didn’t know where Imp was, but what could that tiny deamon android do? Catra wouldn’t save him, she was the one who killed him. Lord Hode had to be wrong.

Another violent shock rocked his metaphysical ‘body’, pulling Hordak farther away from Hode.

The older clone let him go. If back to life was where Hordak needed to go, then that would be where he would let him go.

“Listen to me, Zero-Zero-Three!” He shouted. “When you go back, you need to reunite Etheria with Eternia! They’re the only thing that can-“ another shock drowned out what Hode said and Hordak missed it. What? What could the two planets do? “-to cleanse the universe or burn it!”

“What?” Hordak called, not understanding.

“And-“ here, Hode hesitated. “And if you see Keldor, tell him I didn’t join the Host. Tell him I’m waiting for him!”

If Hode wanted to say more, he didn’t get the chance to. With one more violent shock, Hordak was pulled out of the place for waiting and slammed back into his body and his blacked out. Unconscious.

…

Entrapta leaned back with a relived sigh, watching the monitor. A steady, even heart beat. Hordak was alive. Unconscious and still wounded. But alive.

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