Astronomy school Lab Equipment Manufacturer, Suppliers and Exporter in India

Astronomy school science equipmentis a broad category that encompasses a wide range of tools and materials used to teach and learn about the universe. Some of the most common pieces of astronomy equipment include telescopes, binoculars, planetariums, globes, and star charts. These tools can be used to observe the night sky, study the constellations, and learn about the different objects in space. Telescopes are perhaps the most iconic piece of astronomy equipment. They allow us to magnify distant objects in the night sky, making it possible to see details that would otherwise be invisible to the naked eye. Binoculars are another popular astronomy tool, as they provide a wider field of view than telescopes and are easier to use. Planetariums are specialized theaters that create a realistic simulation of the night sky. They are often used to teach children about astronomy, as they can provide a much more immersive experience than looking at the sky through a telescope. Globes are also a valuable tool for teaching astronomy, as they provide a three-dimensional representation of the Earth and the planets. Star charts are maps of the night sky that show the constellations and other celestial objects. They can be used to help students learn to identify the stars and planets. In addition to these common pieces of equipment, there are many other specialized tools and materials used in astronomy education. These include spectrometers, which are used to study the light from stars and other objects; filters, which are used to block out unwanted light and improve the visibility of certain objects; and software programs, which can be used to analyze astronomical data. Astronomy school science equipment is essential for providing students with a hands-on learning experience. By using these tools, students can gain a deeper understanding of the universe and develop an appreciation for the wonders of science. Below is a list of common astronomy school science equipment used in both school and college laboratories: 1.Telescopes: Refracting telescopes Reflecting telescopes Catadioptric telescopes (combination of lenses and mirrors) 2.Mounts and Tripods: Equatorial mounts Altazimuth mounts Dobsonian mounts 3.Eyepieces and Barlow lenses: Various focal lengths for different magnifications 4.Filters: Solar filters Moon filters Light pollution filters 5.Star Charts and Planispheres: Celestial maps R otating star finders 6.Astronomy Software: Planetarium software Sky mapping applications 7.Cameras and Imaging Equipment: Astrophotography cameras CCD cameras DSLR cameras with adapters 8.Spectroscopes: Used for analyzing the spectrum of celestial objects 9.Solar Observing Equipment: Solar telescopes Hydrogen-alpha filters for solar viewing 10.Meteorites and Impactites: Samples for hands-on study 11.Orreries and Models: Mechanical models of the solar system 12.Globes: Celestial globes Terrestrial globes 13.Grating Spectrometers: Used for detailed spectral analysis 14.Laser Pointers: for pointing out celestial objects during presentations 15.Microscopes: for studying meteorite samples or microscopic features of celestial objects 16.Light Meters: for measuring ambient light pollution 17.Data Loggers: for recording observations and experiments 18.Educational Kits: Solar system model kits Planet and moon models 19.Laser Diodes: for optical experiments and demonstrations 20.Teaching Charts and Posters: Illustrations of constellations, galaxies, and other astronomical phenomena.

Solar Earthing Kit Exporter - Truprotekt

SG Power Group is one of the Solar Earthing Kit Exporter in Ghaziabad, India. One of the best manufacturer of Solar Earthing Kit is SG group. we are functioning to produce the light weight and heavy load bearing Solar Earthing Kit and other comparative products related to cast iron, concrete type pit covers and with the best benefits of earthing pit cover like Resistance to extreme weather, Excellent electrical properties, Chemical resistance, comes in different shapes: Rectangle, square or round, comes in various different sizes, height and weight, Non-staining and non-toxic, zero water absorption and Easy to fit.

Solar earthing kits are designed and manufacture for facilities and refineries, oil refineries and pump stations, heavy industries, food processing and water treatment plants, transmission and distribution system, petrochemical, LNG, and nuclear facilities, etc. To make the rods efficiently strong we use low magnetic conductivity while manufacturing due to which direct the fault current effectively.

Read More - https://www.truprotekt.com/solar-earthing-kit/

CONTACT US

Phone - (+91) – 9818074274

Email - [email protected]

Website - https://www.truprotekt.com/

Address - E-23, New Arya Nagar, Ghaziabad, UP, India – 201001.

Solar Earthing Kit - Manufacturer, Supplier & Exporter, India

SG power is one of the biggest maker and Supplier of Earth Pit covers, Building Lightning Arrester and has huge number of fulfilled clients as best quality crude material is utilized for making these items. Pit spread fabricated by us have superb sturdiness , and ideal solidarity to withstand generous heap of any sort. 

Earthing Pit covers are given over earthing top to do wellbeing check just as checking and recording Earthing Resistance esteem.Solar Earthing kit Manufacturer, Supplier & Exporter by SGP Group. We are the identified manufacturer and supplier of a wide range of solar earthing kit in the market.

Cell On Wheel, Pneumatic Mast, Aviation Lights Supplier in Haryana - STELLAR TELECOM | TradeKeyIndia We are a sourcing Firm based in Gurugram, Commercial capital of Northern India. Established in 2007 we are dealing with a wide array of products finding application in Telecom and Infra business domains.  Company products have been well received by the market. Our core product range includes Cell on Wheels (COW), Pneumatic Mast, Camouflaged Palm Tree Pole, Aviation LED Lights, Telecom Shelters and Cabinets, Battery and Microwave Cabinets, Earthing Kits, Core Networking cables, Optical Accessories. Our other Associate companies are lnvolved with the manufacturing of Infra related products viz EOT/Goliath Crane, JIB Cranes, Electric wire rope hoist etc. Our business strongly focusses on Exports and our products are being exported to Middle east and African countries on regular basis. Most of the products are tailor made to suit customers’ specifications by our supporting factories who have a excellent after sales service network to provide support to our valued customers Deals In: Cell On Wheel, Pneumatic Mast, Aviation Lights, Single Aviation Light, Double Aviation Light, Medium Intensity Single Light, Single Solar Aviation Light, Double Solar Aviation Light, Telecom Cabinets, Telecom Shelter, Cranes, Eot Crane, Goliath Crane, Jib Crane Contact PersonMr. PUNEET CHOWDHARY Address252-C, MIANWALI COLONY, GURUGRAM, HARYANA, INDIA, 122001 Email [email protected] Mobile No+91-124-2391924 / +91-9911299598 Websitehttp://www.stellartelecom.net Cataloghttps://www.tradekeyindia.com/stellar-telecom/ #STELLARTELECOM #CellOnWheel #TradeKeyIndia #CellOnWheel #PneumaticMast #AviationLights #SingleAviationLight #DoubleAviationLight #MediumIntensitySingleLight #SingleSolarAviationLight #DoubleSolarAviationLight #TelecomCabinets #TelecomShelter #Cranes #EotCrane #GoliathCrane #JibCrane

An Ignoramus par excellence

In Pakistan, two-thirds of the professional elite – lawyers, doctors, engineers, architects, chartered accountants, literary writers, artists, players, athletes, professors, corporate managers and media persons, as well as the business elite, political elite, military elite, bureaucratic elite and judicial elite – is relatively uninformed and unconcerned about, uninterested in and unimpressed by the macro-level issues threatening social, national, regional and global life. How far can you go with the one-third elite that are articulate enough to run state and society?

Why are financial, social and educational resources not building the nation? Why are our Afghan, Iran, India and US policies in a mess? Why is the social space increasingly violent? The answer to that is the way the elite of various persuasions are de-institutionalising public life: parliamentarians conducting their business outside parliament; lawyers operating beyond the purview of the law; police regularly committing human rights abuses; and media blatantly taking sides with some forces against others. Half of the elite are India-sick. The other half, America-sick. The two categories are massively overlapping.

While the middle class has been gaining access to higher education by leaps and bounds, both at home and abroad, the counter-currents of the medievalisation of intellect keep it bound to pre-scientific and illiberal patterns of thought and practice. There is a craze for information technology. But, the mind is blocked because the schooling is heavily ideologised. At the age of 16-18, a young man or woman moves into higher education without a modern intellectual postulate rooted in social sciences to support him or her through the career ahead.

The highly educated professional elite at the one end and the half-literate mass of humanity on the other carry similarly uninformed opinions about the West, the Islamic world, corruption, Indian bellicosity and modernity in general. At home, both are more or less equally ignorant about the impending dangers of population explosion, water shortage, global warming, diplomatic isolation of the country and oppressive cultural practices relating to women, minorities and the working classes in rural and urban sectors.

The intellectual postulate of a school graduate in Western society is characterised by developments in the world of ideas: about the solar system from Kepler and Galileo onwards; scientific thinking from Roger Bacon down to Spencer, Parsons and others; medicine from dozens of men like Louise Pasture; various approaches to historical evolution from Hegel, Marx and others; the ancient world of Dinosaurs; the primitive man; pre-historical developments on Planet Earth such as the glacial and post-glacial ages; and the tumultuous modern history dotted by the discovery of the new world, colonialism, religious and national wars and the march towards a global civilisation.

As opposed to this, the modernist elite of Pakistan have an intellectual postulate based on a school education that remains insular, medieval and self-serving at best. Those who pursue professional training are cut off from the social sciences at the tender age of 18-20 – never to come back. The same happens to young cadets who enter the armed forces at the most impressionable age. After that, they are cut off from the social science tradition. Their ‘educational’ pursuits after joining the military, the so-called ‘post-recruitment socialisation’, can at best be called institutional training but hardly ‘liberal’ education. The civil bureaucracy is relatively exposed to Western ideas and practices because it acquires a ‘liberal’ framework of social and cultural studies through training abroad. But the ideologically-laden intellectual postulate internalised at a young age continues to operate at least on a majority of civilian officers.

There are three major routes to de-educating the minds of the educated elite. One is the overbearing ideological hold over the present and future decision-makers whose judgement is thus tainted by lack of pragmatism and sound objective knowledge. Two, educational textbooks have kept the scope of knowledge limited by time and space. A range of perspectives, from world politics to the leading idea-systems, remain outside the intellectual landscape of the educated Pakistanis. Similarly, history – through the medieval age, ancient civilisations, and pastoral life down to the industrial revolution – remains alien to the imagination of the articulate public.

Thirdly, this state of affairs – the closing of the world on oneself – is the product of an acute sense of insecurity that has turned into paranoia over time. As a result, Pakistani elite groups of various persuasions became increasingly introverted. The defence perspective on external relations has massively contributed to securitisation of the national vision. After 70 years, the elite’s world starts and ends at our borders. They show insensitivity towards the way the world looks at Pakistan as an exporter of terrorism, a failing state and a place of religio-sectarian conflict.

A large part of the expanding middle class – drawing on men and women from the business community, civil bureaucracy, military cadres and higher judiciary – finds the clash among Islamic and Western civilisations imminent. The GDP of Pakistan (at $1500 per annum) as compared to the Swiss GDP (at $78,000) is not part of the calculation of the state elite about their power. The acute dependence of all elite groups on the prevalent Western health system, education system, bureaucratic system, parliamentary system and justice system in Pakistan is most typically not part of their intellectual kit.

Ignorance about the contemporary world has led to a worldview based on alternative globality, based on a home-spun vision of the international community. From textbooks leading to misconception of history, politics and culture to the media-sponsored narrative of denial of Pakistan’s growing isolation and upholding of ideological causes, the process of the radicalisation of the middle class is alarmingly visible, except to itself. There is no effort to eliminate brutal cultural practices against religious minorities and women under customary law. The elite are ignorant about these practices, except in the form of horrifying news headlines.

An equally dreadful phenomenon is the population explosion. The generation of elite groups in the 21st century Pakistan is far behind those in the 1960s and 1970s who struggled to address the issue of an increasingly adverse relationship between resources and eating mouths through a viable population planning programme. While the population pressure is a drain on the available resources, these resources are themselves depleting. The most obvious example is water. From melting of glaciers in the north to the changing climate in general, the issue of water supply for future generations is hardly a part of the elite’s everyday discourse. Beyond the national level, the issue of global warming as highlighted by the Paris Agreement is also relegated to a secondary position only fit for diplomats to deal with.

A majority of the elite are ignoramuses par excellence. They offer soft, partial and partisan solutions of hard and imposing problems that demand immediate and comprehensive actions. Only a minority of the elite represent the light at the end of the tunnel. A larger section suffers from insularity of vision and thought. This points to an acute crisis of social sciences in Pakistan that is responsible for providing value-based and ideologically-laden facts in the name of data-input for the purpose of policy formation.

Muhammad Waseem

The writer is a professor at LUMS.

LED street lighting - the next frontier for lighting

LED street lamps use LEDs as light sources. Basically, the lighting is realized when the electrons go through the semiconductor material, in which case the LEDs are. LED street light includes various forms such as ul led street light, LED tunnel/flood light and LED traffic light. These lights get energy from a variety of sources, two of which are solar and wind energy. There are many companies that produce different lights. e. Street lights, traffic lights, tunnel lights, etc. , but not all lights provide the Earth- Friendly products. Making better Earth products from China is some of the leading environmental protection products LED lighting products. Earth- LED street lamp accessories are exported to more than 130 countries and have a wide range of needs worldwide. Various models of LED lighting can be obtained through www. bbeled. Each of these models is powered by solar, wind, or other applicable energy sources. Electricity can also be used. These products include LED street lamps (LUs/4x7) , Ul led street light (LDs/4x6) LED street light for solar/wind turbines, skd led street light components and LED tunnel/floodlight. Solar LED street lamps are one of the most common models and are ideal for sunny areas throughout the year. This ensures that there is enough solar energy to power the solar kit that is normally connected to this lighting. Store solar energy during the day and then run out at night to power the lighting. There are several countries where the environment can strongly support the use of solar LED street light models, including the Maldives, Brazil, and Trinidad and Tobago. Solar LED street lamps and all other types of LED street lamp models can be used for lighting in many ways. These products can be used to illuminate the industrial zone, to provide lighting outside the park and residential areas, lighting inside the town and on roads and highways, provide plenty of light for auto repair shops, gas stations and many other types of business sites. In all these areas, the old models of street lights are being phased out and replaced by LED street lights. Solar LED street lamps, as well as all other models of LED street lamps, are advantageous in reducing current and power consumption, thus ensuring a reduction in electricity charges.

If you are looking for more energy-saving LED light fixtures, please visit us at: www.chz-lighting.com

Solar Street Light in India

Driven Street lighting is a new option in contrast to customary road lights, for example, LPS, HPS, or MH road lights. Driven lighting gives a huge number of favourable circumstances over regular brilliant light: LED road lights are earth inviting, vitality proficient, and financially savvy. This keen, "green" choice for open-air lighting has developed on the green scene because of the on-going mechanical progressions of LED brightening. Esso Fab Tech Pvt. Ltd. for Solar Street Light in India

 In any case, increasingly "greener" alternative for you is solar road lighting by reused efficient power vitality lighting framework. They are of vitality sparing and natural well disposed of, which can be utilized for private, street, park, etc. Excellent sun powered board ingests daylight and convert into power vitality, at that point charges support free battery lastly LED road lights naturally when three day weekend, auto-off when sunrise. Esso Fab Tech Pvt. Ltd. for Solar Street Light in India

 The working technique for sun powered road lights is: sun based board retains daylight and changes over it to power to drive 60W LED Street light and Solar Street Light in India, Solar Lights in India, Street Lights in India, Solar Light in India, Solar Street Lights Manufacturers, Suppliers and Exporters in India, Solar Street Lighting Systems Manufacturing in India, Solar Street Light Manufacturing in India, Solar LED Lights in India, Solar Street Lights Dealer in India, Solar LED Solar Manufacturer & Supplier in India, LED Street Light Manufactures in India, Solar Street Light Manufacturer in India, Solar Street Light Set Price in India, Solar Street Light Online in India, All in One Solar Street Light Price in India, Solar Street Light Project in India, Solar Road Studs Manufacturers in India, Solar Street Light Kit Price in India, Solar Light Heating System in India, All in One Solar Street Light Specification in India, Solar Street Lights at Best Price in India.

 The entire framework is chiefly created by:

 60W LED road lighting, sun based board, lead corrosive battery and sunlight based road lighting controller, post (recommend 6-8m stature).

 Due to various climate condition in the various national and various prerequisites from the various market, so the particulars of each piece of the entire sun powered road lighting framework, particularly sunlight based board and battery, are relying upon following elements:

 • Average nearby everyday daylight hours.

 • Working occasions of the framework every night.

 • Backup days of the nearby planetary group during stormy days.

 Preferences of LED Solar Street Lighting Projects

 1). Lower control utilization

 2). Higher power, higher force

 3). Spare all your power cost. Spare electric transformer and link cost. Free support

 4). Ecological Impact - Eliminate Hazardous Disposal

 5). longer lifetime: Lifespan of sun based board is 20-25 years. The life expectancy of LED road lights is 6-8 years. The life expectancy of the battery is 4-6 years.

 Esso Fab Tech Pvt. Ltd. Solar Street Lights present the ideal and practical answer for private lanes, park, roadways, outside lighting applications zones in just about 130 nations around the globe. Please NOW don't hesitate to get in touch with us for altered Solar Street Lighting venture.

 http://www.essofabtech.com/solar-street-light.php

Bigelow Expandable Activity Module (BEAM):  The crew ingressed BEAM and replaced a 3.3 mm thick Radiation Environment Monitor (REM) shield that was installed onto a REM sensor on May 31, 2017 with a 10.0 mm thick shield that was also printed on the 3D printer onboard the ISS.  BEAM is an experimental expandable module attached to the ISS.  Expandable modules weigh less and take up less room on a rocket than a traditional module, while allowing additional space for living and working. They provide protection from solar and cosmic radiation, space debris, and other contaminants. Crews traveling to the moon, Mars, asteroids, or other destinations may be able to use them as habitable structures. NanoRacks Module-48:  The crew took photos for the NanoRacks Module-48 investigation for downlink to the ground.  NanoRacks Module-48 connects students on Earth to the space program by sending their photographs and messages to the ISS along with plant seeds that are germinated after being returned to Earth. The investigation increases awareness of humans’ ability to access space, spurring interest in the space program and encouraging students to pursue careers in science, technology, engineering and math.  Sprint Ultrasound 2:  For their Flight Day 60 Sprint Ultrasound 2 session, a crewmember, with support from an operator, configured Ultrasound 2, place reference marks on the calf and thigh of their right leg, don the thigh and calf guides, and perform thigh and calf scans with remote guidance from the Sprint ground team. Ultrasound scans are used to evaluate spaceflight-induced changes in the muscle volume. The Sprint investigation evaluates the use of high intensity, low volume exercise training to minimize loss of muscle, bone, and cardiovascular function in ISS crewmembers during long-duration missions. NanoRacks Module-70:  The crew removed the NanoRacks Module-70 sample inserted yesterday into the Nanoracks Platform-2 in the Japanese Experiment Module (JEM) and placed it into a General Laboratory Active Cryogenic ISS Experiment Refrigerator (GLACIER).  Module-70 is an educational research project designed to study the effects of radiation damage to synthetic DNA for gene regions that code for a human antibody. The experiment will make copies of the synthetic DNA samples at certain time-points during the mission using a technique called polymerase chain reaction (PCR). The DNA will be returned for study of strand break analysis. The experiment is from the Beijing Institute of Technology (BIT) School of Life Science in Beijing, China.  Fine Motor Skills (FMS): The crew completed a series of interactive tasks during a FMS session today. The FMS investigation studies how the fine motor skills are effected by long-term microgravity exposure, different phases of microgravity adaptation, and sensorimotor recovery after returning to Earth gravity. The goal of the investigation is to determine how fine motor performance in microgravity varies over the duration of six-month and year-long space missions; how fine motor performance on orbit compares with that of a closely matched participant on Earth; and how performance varies before and after gravitational transitions, including periods of early flight adaptation and very early/near immediate post-flight periods. Surface Sample Kit (SSK) Collection/Incubation: The crew completed this regularly scheduled maintenance to complete bacterial and fungal sampling. This activity is performed in all USOS modules, including BEAM.  SpaceX (SpX)-11 Cargo Operations: The crew has completed approximately 36 hours of cargo operations with approximately 17.5 hours of packing remaining. SpX-11 is scheduled to unberth on July 2nd, 2017. Today’s Planned Activities All activities were completed unless otherwise noted. Preparation of Reports for Roscosmos Web Site and Social Media URAGAN. Observation and Photography ECON-M. Observation and Photography Reminder 2 Fine Motor Skills Reminder Sprint Ultrasound Electronic Nose. Experiment Session Fine Motor Skills Experiment Test – Subject Surface Sample Kit (SSK) Collection/Incubation BEAM Node 3 Aft Unstow ARED Platform Partial Fold BEAM Ingress BEAM REM Shield 3 Install Surface Sample Kit (SSK) Collection/Incubation Microbial Air Sampler (MAS) Kit Sample Collection BEAM Cleanup and Egress ARED Platform Unfold Back to Nominal Position BEAM Node 3 Aft Stow Combustion Integrated Rack Upper Rack Doors Open Combustion Integrated Rack Manifold Bottle Replacement Combustion Integrated Rack Upper Rack Doors Close Recycle Tank Drain Part 1, 2, and 3 NanoRacks Platform-2 Module-70 Removal NanoRacks Module-70 Glacier Insert RGN WSTA Fill Ultrasound 2 HRF Rack 1 Power On Ultrasound 2 Configuration System Settings Backup Sprint Ultrasound Operations – Subject Sprint Guide Donning Operator MAS Kit Sample Collection Unpacking of First Priority USOS Cargo Items from Progress 436 (SM Aft). IMS Update IMS Delta File Prep RGN WSTA Fill Replacement of Onboard ODF with ODF delivered by Progress 436 Ultrasound 2 Guided Data Export Ultrasound 2 Hard Disk Clean WSTA Fill [Aborted] Cleaning of the Screen of the Fan Unit with Heater (БВН) in Soyuz 735 Systems Operations Data File (SODF) Deploy Completed Task List Items None Ground Activities All activities were completed unless otherwise noted. Command and Data Handling(CDH) Bus Channel B Checkout MSS ROSA Science Operations  Three-Day Look Ahead: Wednesday, 06/21: CBEF cleaning/Rodent Research ops, NanoRacks Module 52 status check, Microbial air sampling Thursday, 06/22: METEOR hard drive swap, Rodent Research ops, Tangolab Card 1 removal Friday, 06/23: Microbial Tracking 2 ops, StemCell media change, SPHERES Halo run QUICK ISS Status – Environmental Control Group:   Component Status Elektron On Vozdukh Manual [СКВ] 1 – SM Air Conditioner System (“SKV1”) Off           [СКВ] 2 – SM Air Conditioner System (“SKV2”) On Carbon Dioxide Removal Assembly (CDRA) Lab Standby Carbon Dioxide Removal Assembly (CDRA) Node 3 Operate Major Constituent Analyzer (MCA) Lab Idle Major Constituent Analyzer (MCA) Node 3 Operate Oxygen Generation Assembly (OGA) Process Urine Processing Assembly (UPA) Process Trace Contaminant Control System (TCCS) Lab Full up Trace Contaminant Control System (TCCS) Node 3 Off   from ISS On-Orbit Status Report https://go.nasa.gov/2sdG9Q3

Led street light advantages and introduction

LED street lamps use LEDs as light sources. Basically, the lighting is realized when the electrons go through the semiconductor material, in which case the LEDs are. LED street light includes various forms such as led street light, LED tunnel/flood light and LED traffic light. These lights get energy from a variety of sources, two of which are solar and wind energy. There are many companies that produce different lights. Led Street lights, traffic lights, tunnel lights, etc. , but not all lights provide the Earth- Friendly products. Making better Earth products from China is some of the leading environmental protection products LED lighting products. 

LED street lamp accessories are exported to more than 130 countries and have a wide range of needs worldwide. Solar LED street lamps are one of the most common models and are ideal for sunny areas throughout the year. This ensures that there is enough solar energy to power the solar kit that is normally connected to this lighting. Store solar energy during the day and then run out at night to power the lighting. There are several countries where the environment can strongly support the use of solar LED street light models, including the Maldives, Brazil, and Trinidad and Tobago. Solar LED street lamps and all other types of LED street lamp models can be used for lighting in many ways. 

These products can be used to illuminate the industrial zone, to provide lighting outside the park and residential areas, lighting inside the town and on roads and highways, provide plenty of light for auto repair shops, gas stations and many other types of business sites. In all these areas, the old models of street lights are being phased out and replaced by LED street lights. Solar LED street lamps, as well as all other models of LED street lamps, are advantageous in reducing current and power consumption, thus ensuring a reduction in electricity charges.

NanoRack Cubesat Deployer (NRCSD) #10 Installation: This morning the crew installed two Quad deployers on the attachment mechanisms on the JEM Airlock (JEMAL) Slide Table. Only one Quad has satellites loaded, the second Quad is required for proper fit of the Multi-Layered Insulation (MLI) protective cover.  The deployment is scheduled for after the berthing and dockings of SpX-10 and 66P.  The five satellites loaded include four 3U sized (1U = 10 x 10 x 10 cm cube) LEMUR-2 and one 3U TechEdSat and one 3U spacer.  The LEMUR-2 satellites are equipped to provide AIS Data (Maritime Domain Awareness) and GPS-RO Data (Weather). The TechEdSat investigation studies a new system called the Exo-Brake, which uses a spacecraft’s own atmospheric drag to change its velocity and adjust its approach. This investigation tests the controls, avionics and methods that may be used on future spacecraft using the Exo-Brake system, including small payloads returning to Earth or landing on Mars. Veg-03 Harvest and Cleaning:  The crew is scheduled to harvest the Chinese cabbage from the Veggie facility. The crew has been given approval to consume some of the harvest and the remainder of the harvest will be stowed in Minus Eighty Degree Celsius Laboratory Freezer for ISS (MELFI).  Following the harvest, the Veggie facility will be cleaned and sanitized prior to the use of Veggie for the APEX-4 payload being delivered by SpaceX-10.  Future long-duration missions into the solar system, finally culminating on Mars, will require a fresh food supply to supplement crew diets, which means growing crops in space. Previous investigations focused on improving productivity in controlled environments, but the limited quarters of the Space Shuttle and ISS made it difficult to conduct large-scale crop production tests. Veg-03 expands on previous validation tests of the new Veggie hardware, which crew members have used to successfully grow flowers and lettuce in space. Tests determine which types of microorganisms are present in space-grown cabbage, providing baseline data for future crop-growing efforts. Behavioral health surveys assess the impact of growing plants on crew morale and mood. Strata-1 Card Changeout: The crew replaced four Strata Secure Digital (SD) data cards and transferred the files from the removed SD cards to a Station Support Computer (SSC) for ground teams to downlink and distribute. Strata-1 investigates the properties and behavior of regolith on small, airless bodies. Regolith is the impact-shattered “soil” found on asteroids, comets, the Moon, and other airless worlds, but it is different from soil here on Earth in that it contains no living material. Strata-1’s goal is to give us answers about how regolith behaves and moves in microgravity, how easy or difficult it is to anchor a spacecraft in regolith, how it interacts with spacecraft and spacesuit materials, and other important properties. It is important to NASA to know how to set anchors in regolith, how to safely move and process large volumes of regolith, and predict and prevent risk to spacecraft and astronauts visiting these small bodies. Also, understanding the whole-body context of material returned to Earth from small asteroids, such as by the NASA OSIRIS-REx mission, the JAXA Hayabusa 1 and 2 missions, and the proposed NASA Asteroid Redirect Mission (ARM) is scientifically beneficial.  Intravehicular Activity (IVA) Imagery of Radiator Beam Valve Module (RBVM) P1-3-2:  External Active Thermal Control System (EATCS) Loop B has had a chronic leak for multiple years, however telemetry indicates that the leak rate has been increasing.  During the Robotic External Leak Locator (RELL) operations last weekend, an increased magnitude of vapor ammonia was detected in the vicinity of RBVM P1-3-2.  To assist in the investigation into the source of the leak, earlier today ground flight controllers positioned the Port Thermal Radiator Rotary Joint (TRRJ) to allow the crew to perform a high resolution still and video imagery inspection of RBVM P1-3-2 from Cupola Window 1.  Space-X 10 (SpX-10) Preparation:  Today the crew is scheduled to perform a second session of Robotics Onboard Trainer (ROBoT) in preparation for SpX-10 capture.  This training session includes material for the crew to perform Self Study before performing the ROBoT session, which includes a 30m approach, two Capture Point (CP)-hold runs, and 2m runs.  The crew also gathered Node 2 vestibule outfitting equipment in preparation for Dragon install.   United States On-orbit Segment (USOS) Hatch Seal Inspection:  The crew cleaned and inspected all USOS Common Hatches (including Node 2, Node 3, PMM, Columbus, and JEM Hatches), Hatch Plate Sealing Surface, and Hatch Handle Mechanism for Foreign Object Debris (FOD) or damage.  This is a routine maintenance task performed every six-months. Today’s Planned Activities All activities were completed unless otherwise noted. In Flight Maintenance Cupola Shutter Close NanoRacks CubeSat Deployer Procedure Review Ultrasound 2 HRF Rack 1 Power On Inventory Management System (IMS) conference Ultrasound 2 Scan Prep Ultrasound 2 Scan RS1 Laptop Activation In Flight Maintenance Cupola Window 1 Scratch Pane Remove RS1 Laptop Log-File Dump (5 day period) JEM Airlock Slide Table (ST) Extension to JPM Side RS2 Laptop Deactivation NanoRacks CubeSat Deployer Installation on the MPEP Photo/TV Loop B Camcorder setup UDOD. Experiment ops using DYKNANIYE-1 and SPRUT-2 sets Ultrasound 2 Guided Data Export Ultrasound 2 Post Exam Photo/TV Loop B Photography Audit of Crew Onboard Support Kit (КСПЭ) Equipment Strata Card Changeout JEM Airlock Slide Table (ST) Retraction from JPM Side Multi-purpose Small Payload Rack (MSPR) /Group Combustion Module (GCM) Component Deactivation Hatch Seal Inspection Part 2 On-board Training (OBT) Dragon Attached Phase Operations Review Vacuum cleaning ventilation grille on FGB interior panels (201, 301, 401) On-board Training (OBT) Dragon Robotics Onboard Trainer (ROBoT) Session 2 Audit of Crew Onboard Support Kit (КСПЭ) Equipment Waste and Hygiene Compartment (WHC) Full Fill In Flight Maintenance Cupola Shutter Close Video Footage for Russia Today TV Channel Node 2 Nadir Vestibule Outfitting Kit (VOK) Gather MOTOCARD. Operator Assistance with the Experiment VEG-03 MWA Preparation Photo/TV Loop B Camcorder Deactivation In-Flight Maintenance Cupola Window 1 Scratch Pane Replace VEG-03B Harvest On-board Training (OBT) Dragon Attached Phase Operations Review VEG-03 MELFI Insertion #3 СОЖ maintenance […] from ISS On-Orbit Status Report http://go.nasa.gov/2lqYyqL