Application of NMR Spectroscopy.

Want to know What is Nuclear Magnetic Spectroscopy? Here, we shares info What is Nuclear Magnetic Spectroscopy, How Does NMR Work, Application of NMR Spectroscopy. NMR spectroscopy is powerful analytical tool to study the molecules with an atomic level of information. Need NMR analysis, Call Now!

OF COURSE the jury president for my candidacy exam is a magnetic materials guy

Anatomy of a Scoliosis Pattern — a Real Life Story

Client in today had a hip and low back problem that showed up when running up uneven stairs. This is probably not a new problem as she has a Scoliosis pattern. (Many people do who’ve never been ‘diagnosed’.)

Her right hip has been painful and tight; her right pelvis is ‘hiked’; her right lumbar is ‘flat’; the right QL is short.

When prone, turning bent legs left against resistance is weak at T/L junction and L5/S1 junction. Since the body is 3-dimensional this means her lumbar likes to turn left at T12/L1 AND L5/S1.

But on the left side of the lumbar, the TOP of the QL at T12/L1 is thick and tight. Scoliosis often has this pattern. Side bending using QL on the Left side she is strong at T12/L1 and weak at the insertion of QL onto the Iliac crest. So, TOP of the QL on the left is Strong for Side Bending and Weak for Rotation. On the right the insertion of QL on the Ilium is VERY tight and strong and inhibiting the lateral hip stabilization of Glut Med/Min. BOTH Erector Spinae up and down the spine are weak. The right hip therefore is ‘gripped’, externally rotated to brace for the weak back and Glut muscles. The right Iliacus is very tight also creating the perfect picture for compression of the hip joint: External Rotators co-contracted with Iliacus. This co-contraction flattens the lumbar spine. Erector Spinae is not functional/active/responsive and the Psoas on the right side is not supporting the upper end of the lumbar lordosis from the front. It tests weak.

The right rib cage is narrower than the left at the bottom. When my client inhales using the diaphragm, the right side does not expand as well as the left. This too, is a common pattern of some cases of Scoliosis. Are you confused? How does all this fit together? What can be done about it?

I’m just glad that NMR does not try to understand the whole pattern at once... These compensations were built on top of one another over many years of coping. You would never know this client has Scoliosis if you saw her in line in front of you. NMR tackles the most strategic imbalances first. The T/L junction is #1. Remaining functions of the ‘waist’ are next; then the way in which the pelvis deviated to accommodate the shorter muscles.

When I look at these ‘types’ of Scoliosis there is no way to understand from a 2-dimensional drawing the dynamics of what is going on in Scoliosis patterns. The ’shape’ of things is less important than What’s working vs. What’s not working.

These muscle patterns can be re-programmed. If you are curious, consider studying NMR. We’ll be doing an Advanced NMR for Scoliosis class in Dallas the first weekend in August.

[Jocelyn Olivier]

Re: Shiloh doesn't have a bush

How does their hair work? Have they always worn a wig or do NMR's just get the head patch and nothing else?

They get a little head patch. as a treat 😇

How to Buy Retatrutide Peptide?

As demand for metabolic research intensifies, Retatrutide Peptide has emerged as a leading candidate for weight loss, obesity, and Type 2 diabetes research. But with rising interest comes a common question: How to buy Retatrutide peptide from a trusted source? Whether you're seeking retatrutide bulk order options for clinical use or scouting for a GMP Retatrutide supplier, this guide outlines everything you need to know to make an informed, safe purchase.

What is Retatrutide Peptide?

Retatrutide is a novel triple agonist peptide targeting GLP-1, GIP, and glucagon receptors. Its mechanism of action enhances insulin secretion, reduces appetite, and increases energy expenditure. Early clinical trials show promising effects on weight loss and glycemic control, positioning Retatrutide Peptide at the forefront of anti-obesity and metabolic peptide research.

For a deep dive into how this peptide works, see: How Retatrutide Works: Mechanism of Action Explained

Who Needs Clinical-Grade Retatrutide?

The peptide is currently used exclusively in research settings. Key buyers include:

Clinical research labs studying metabolic disorders

Pharmaceutical R&D teams developing weight management therapeutics

Peptide distributors & bulk buyers serving medical supply chains

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If your institution falls into any of these categories, sourcing a GMP Retatrutide batch is critical to ensure consistency, safety, and regulatory compliance.

How to Choose a Retatrutide Supplier?

When buying Retatrutide Peptide, consider the following criteria:

Purity Standards Look for ≥98% purity, with third-party testing (e.g., HPLC, MS, NMR) to validate.

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Steps to Place a Retatrutide Bulk Order

Ready to order? Here’s how:

Specify Your Requirements Common vial sizes include 10mg, 20mg, or custom requests. Clarify quantity and shipping destination.

Request a Quote Contact your preferred Retatrutide supplier with full order details.

Confirm GMP Documentation Ask for COA, MSDS, and full batch testing results before payment.

Finalize Payment & Shipping Most wholesale suppliers offer payment via bank transfer or crypto. Ensure cold-chain compliant shipping options are available for your region.

Track & Receive Shipment Delivery to US/EU typically takes 5–10 working days. Ensure your lab has proper storage (-20°C or colder).

Why GMP Retatrutide Matters

GMP Retatrutide ensures you’re working with peptide batches that meet pharmaceutical-grade quality. Non-GMP peptides may have inconsistent purity levels or be unsuitable for clinical studies, potentially risking research outcomes and safety.

By choosing a GMP Retatrutide supplier, you align with best practices and regulatory expectations, especially if your research is aiming for future human clinical trials or regulatory submission.

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Understanding the Importance of Chemical Synthesis Services

In the world of science and industry, creating new chemicals is a key part of progress. From medicine and agriculture to materials and energy, chemistry plays a big role. One of the most important parts of this process is chemical synthesis services. These services help scientists and companies make custom-made chemical compounds for different uses.

In this blog, we’ll explain what chemical synthesis is, why it matters, and how professional services make it easier and safer.

What Are Chemical Synthesis Services?

Chemical synthesis is the process of creating chemical compounds by combining different substances through chemical reactions. This is done in laboratories using precise methods and controlled environments. Chemical synthesis services are professional services that offer support in this area, helping clients create custom chemicals based on their needs.

These services are often used by:

Pharmaceutical companies

Research labs

Biotechnology firms

Universities and academic institutions

Chemical manufacturers

By using chemical synthesis services, companies can save time, reduce risk, and ensure high-quality results.

Why Are Chemical Synthesis Services Important?

Creating new chemical compounds can be difficult and dangerous. It requires special tools, trained experts, and a deep understanding of chemistry. This is why many businesses and researchers turn to expert providers of chemical synthesis services.

1. Expert Knowledge

Chemical synthesis involves many steps. Experts know how to choose the right starting materials, control the reaction, and purify the final product.

2. Custom Solutions

These services allow clients to request specific compounds. Whether it's for drug testing, new materials, or experiments, custom synthesis helps meet exact needs.

3. Time-Saving

Research takes time. By outsourcing to a chemical synthesis company, scientists can focus on testing and development while the experts handle the creation of the compounds.

4. High Quality and Safety

Chemical synthesis involves working with toxic and reactive substances. Professional labs follow strict safety rules and quality control processes to protect workers and ensure reliable results.

How Does the Chemical Synthesis Process Work?

The process usually follows several key steps:

Step 1: Understanding the Requirement

The client explains what compound is needed, including structure, purity level, and amount.

Step 2: Planning the Reaction

Experts design a step-by-step plan to create the compound. They choose the right chemicals and conditions for the reaction.

Step 3: Performing the Synthesis

Using lab equipment, the team carries out the reaction, carefully controlling temperature, pressure, and other factors.

Step 4: Purification and Testing

After the compound is made, it is cleaned (purified) and tested using methods like NMR, HPLC, or Mass Spectrometry.

Step 5: Delivery to Client

Once the final product passes all tests, it is packaged and delivered safely to the client.

This process ensures that the chemical synthesis services provide accurate and high-quality compounds every time.

Who Can Benefit from These Services?

Chemical synthesis services are helpful for many types of clients:

Research Scientists

Need small amounts of rare or new compounds for experiments.

Pharmaceutical Companies

Use synthesis to develop and test new drugs before going into full production.

Chemical Manufacturers

Order bulk quantities of specific chemicals for use in other products.

Academic Institutions

Often need these services for educational and experimental purposes.

What to Look for in a Chemical Synthesis Provider

When choosing a company that offers chemical synthesis services, it’s important to consider:

Experience and qualifications of the team

Lab facilities and safety measures

Turnaround time for delivery

Clear communication and updates on project progress

Quality control and testing methods

Working with a trusted partner ensures you receive safe, reliable, and cost-effective results.

Also read:- Understanding Chemical Synthesis Services: A Simple Guide

Conclusion

In today’s fast-moving scientific world, having access to reliable chemical synthesis services is more important than ever. Whether you are in research, healthcare, or industry, these services help you develop new products, test ideas, and stay ahead of the competition.

From simple compounds to complex molecules, expert synthesis services save time, reduce risk, and deliver top-quality results.

For more info visit here

Name: PureSynth Research Chemicals

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Understanding the National Microchip Registry: Why It’s Essential for Your Pet’s Safety

Losing a beloved pet is a heart-wrenching experience, but thanks to advancements in technology, microchips offer a reliable way to reunite lost pets with their owners. The National Microchip Registry (NMR) is a comprehensive database that stores microchip information, making it easier to find and return lost pets quickly.

What is the National Microchip Registry?

The National Microchip Registry is a centralized platform where pet owners can register their pet's microchip number, along with their contact information. When a lost pet is found and scanned by a veterinarian, shelter, or rescue organization, the registry provides immediate access to the owner's details.

Why is Microchip Registration Important?

Permanent Identification: Unlike collars and tags that can break or fall off, a microchip is a permanent form of identification.

Fast Reunions: Microchips increase the likelihood of reuniting lost pets with their owners.

Proof of Ownership: A registered microchip serves as undeniable proof of ownership.

Nationwide Coverage: NMR ensures your pet can be identified and returned, no matter where they are found.

How Does the National Microchip Registry Work?

Microchipping: Your pet receives a small microchip, typically implanted between their shoulder blades.

Registration: You register your pet’s microchip number in the NMR database with accurate and up-to-date contact details.

Scanning: If your pet is lost and found, animal professionals scan the microchip to retrieve its unique number.

Reuniting: The number is checked in the NMR database, connecting the finder with the pet owner for a swift reunion.

Tips for Keeping Microchip Information Updated

Update After Moving: Change your address and phone number in the registry after relocation.

Add Emergency Contacts: Provide secondary contacts in case you’re unreachable.

Regularly Verify Information: Set a reminder to check your pet’s registration details annually.

How NMR Supports Pet Safety

At the National Microchip Registry, we are committed to safeguarding pets and reuniting them with their families. Our user-friendly platform ensures easy registration, quick updates, and reliable support in times of need. By registering your pet’s microchip with NMR, you’re taking an essential step toward ensuring their safety.

Final Thoughts

A microchip alone isn’t enough — it must be registered to be effective. The National Microchip Registry makes this process simple and efficient. Take a proactive step today and secure your pet’s safety with NMR.

"The Loincloths." From the Book of Sirach, "The Manner of the Fern" 11: 1-6.

Modesty is clearly an important topic in Judaism. It is in fact the very first prescription/prohibition identified by the Torah. But Adam and Eve chose to explore immodesty before the appropriate time and ended up wearing loincloths. Children clearly can't run around naked in a garden their entire lives, nor should they feel naked and ashamed. In between these extremes Adam and Eve chose loincloths.

Loincloths are 390, ג‎צ, "a jack, knave." Sirach says we must not make fun of a jack or flatter a good looking person, nor bother a person who is having a bad day, all of this makes perfect sense, but how does it pertain to the cultivation of an ideal personality, called Pislam "their own statue" , a tell dignified person in Hebrew?

The Deceptiveness of Appearances

11 The wisdom of the humble lifts their heads high     and seats them among the great. 2 Do not praise individuals for their good looks     or loathe anyone because of appearance alone. 3 The bee is small among flying creatures,     but what it produces is the origin of sweet things. 4 Do not mock those wearing only a loincloth     or make fun of those whose day is bitter,[a] for the works of the Lord are wonderful     and his works are concealed from humans. 5 Many oppressed have sat upon a throne,[b]     and one whom no one expected has worn a crown. 6 Many rulers have been utterly disgraced,     and the honored have been handed over to others.

Why do bad things happen to good people and why don't bad things happen to criminals instead? A friend who is a lawyer says in spite of the fact we think the law is supposed to work in favor of the blessed, sometimes, fairly often in fact, it just does not, this is a fact we must accept. I do not accept this. The Torah says there must not be confusion between what is sacred what is profane, good and evil what is legal and what is not.

Sirach says persons who do not resemble the norm, who are criminal minded must not be honored like the rest. Truly worthwhile persons must not be lost within or trapped by society's confusion over what to do about corruption.

v. 1-2: The humble should be seated by the great. The Number is 6933, אוטוגג‎ ‎ ‎, autogag, "tagged or 'fingered' and roofed".

This means it is obvious to whom God's finger has pointed. A man or woman of God does not persecute others, spread idle gossip, does not stir up trouble or complicate things when they are actually quite simple. They dutifully follow the Seven Laws and explain the Torah with their actions.

Sirach and the Torah like suggest a good man is like a bee, small but important to the rest of the creation:

v. 3 The bee is small among flying creatures,     but what it produces is the origin of sweet things. The Number is 5288, הבלח‎ ‎ hablach‎ ‎ ‎"‎the flash, a flicker, a twinkle, a shimmer,"

The etymology suggests a bee, which consumes very little does quite a lot with the pollen and nectar it scavenges:

"The root נמר (nmr) isn't used as verb in the Bible and it's not clear what it may have reflected to the Hebrews. In Arabic a comparable root describes purity of water and in Assyrian it means to shine, glitter or gleam.

In the Bible only one derivation occurs, namely the masculine noun נמר (namer), denoting the leopard, and it's obviously also not quite clear for what exactly the leopard was known for to the Hebrews.

Our noun occurs five times. Twice the leopard is reckoned for its propensity to ambush its prey (Jeremiah 5:6 and Hosea 13:7), once for its speed (Habakkuk 1:8), once for its spotted fur (Jeremiah 13:23) and once for its beauty (or so it seems: Song of Solomon 4:8).

The prophet Isaiah predicts the harmony of the new world, and foresees the leopard reposing with a goat kid (Isaiah 11:6)."

v. 4: Do not mock those wearing a loincloth. The Number is 10155, יקןה, "will buy",

You can buy clothes and also buy nakedness, it depends on one's prediilections. The Torah says buying and selling is a process of communicating the truth to persons capable of recognizing the value of what they are paying for. Nakedness is not worth paying for.

From Vayeshev:

6 Now Joseph was governor over the land. He was the one who sold to all the people of the land. And Joseph's brothers came and bowed themselves before him with their faces to the ground. 7 Joseph saw his brothers and recognized them, but he treated them like strangers and spoke roughly to them. ���Where do you come from?” he said. They said, “From the land of Canaan, to buy food.” 8 And Joseph recognized his brothers, but they did not recognize him. 9 And Joseph remembered the dreams that he had dreamed of them. And he said to them, “You are spies; you have come to see the nakedness of the land.” 10 They said to him, “No, my lord, your servants have come to buy food. 11 We are all sons of one man. We are honest men. Your servants have never been spies.”

Spies are 254, בהד‎‎‎, "in the echo". Jews are not allowed to buy or sell certain things. To use one's skills of deduction is how one becomes a good spy, to be certain one is not spending one's time on forbidden things.

v. 5-6: The oppressed must sit on the throne. Disgraced rulers must step down. The Number is 11855, יאחהה‎‎‎‎, "beat, hit, or strike."

Anyone who troubles Israel or an Israelite must be beaten down in order to protect the social dimension:

"The verb עכר (akar) means to stir up, disturb or trouble. HAW Theological Wordbook of the Old Testament remarks that this verb "reflects the social dimension of an individual's action".

Jacob uses this verb to describe his position among the Canaanites when Simeon and Levi killed the men of Shechem after the rape of Dinah (Genesis 34:30).

After years of drought, king Ahab accuses Elijah of being the troubler of Israel (1 Kings 18:17). King Solomon proclaimed that a cruel man brings trouble to his own flesh (Proverbs 11:17), and a man who brings trouble on his household inherits the wind (Proverbs 11:29).

This verb's derivation עכור (akor) means trouble, but it occurs only as the name Achor. Also note the striking similarity with the Greek word αχος (achos), meaning pain or grief."

A cruel man must be punished for his actions. This is the only way the world will get what it is paying for after it spends time studying scripture, believing other human beings will understand it and maintain civil society.

The opposite, a carefree attitude towards the laws that are supposed to protect innocent is ridiculous. This belief sells the vulnerable into the hands of terrorists for a very cheap price and this is outrageous.

Forbidden actions must not be sold to the public. The appearance of propriety and the reality are the same thing. Politicians that do not understand this must be severely punished by the law without exception.

An inside look into the Powerhouse of the Cell

This publication highlight is part of the SBGrid/Meharry Medical College Communities Project, focused on science education and demonstrating how structural biology and preclinical science connect to medicine.

Mitochondria are the powerhouses of the cell. We’ve all heard this phrase at some point in our lives, but what does it mean on a molecular level? A mitochondrion is an organelle in cells like animals, plants and humans that functions to provide the cell with energy in the form of a molecule called adenosine triphosphate, or ATP. A sufficient stock of ATP is produced in mitochondria when cells in our body convert food into energy, or what is known as cellular respiration. More specifically, cellular respiration is when our cells take in glucose and oxygen through many steps and then release carbon dioxide, water, and energy. An important step is to store this energy into a form that can be used in different parts of the cell when needed. This is done by moving electrons (really small particles that are a part of atoms) by a group of biomolecules called proteins. These proteins come together to form an electron transport chain. As the name suggests, the electron transport chain is a series of processes where electrons are transported from one molecule (donor) to another molecule (acceptor) resulting in the formation of ATP. For the electron transport chain to work, it relies on electron donor molecules produced from the Krebs cycle, also known as the citric acid cycle. 

The Krebs cycle is a metabolic pathway in the mitochondria that allows our bodies to break down carbohydrates to be used for energy. This process starts with pyruvate entering the system and, after several steps, ends with the production of several molecules such as, ATP, NADH, and FADH2. These important molecules enter the electron transport chain acting as electron donors to make more ATP. CO2 is also produced from the Krebs cycle and enters other metabolic pathways. All of the steps in the Krebs cycle are carried out by different enzymes. One of the enzymes is succinate dehydrogenase (SDH). As a member of the electron transport chain in mitochondria, SDH or complex II, catalyzes the formation of fumarate from succinate- releasing FADH2 as a byproduct. SDH produces a fraction of the total ATP,  but is important for a wide range of cellular activities, such as suppressing tumor growth and neurological development. Although the importance of SDH has been widely established, what is unknown are the details of how the regulation of SDH assembly factors (SDHAF) and SDH assemble into a functional unit.

Left: structure of SDHA-SDHAF2-SDHAF4 assembly intermediate (PDB: 8DYD). Green: SDH, purple: SDHAF4, orange: SDHAF2.  Right: structure of SDHA-SDHAF4 assembly intermediate (PDB: 8DYE). Green: SDH, orange: SDHAF4. CC BY SBGRID.

To address this question, SBGrid member Tina Iverson investigated the intermediate complexes formed by the SDHAF subunits and cofactors. Through the use of cellular studies and biochemical experiments, along with X-ray crystallography and NMR for structural studies, the authors were able to map out the different intermediate complexes that lead to the formation of the fully matured SDH. Interestingly, the authors found that regions of the assembly proteins can transition from ordered (a protein with a secondary structure) to disordered (a protein with no secondary structure) and that this change is important for the transfer between intermediate complexes. These results shed light on the previously unknown steps of the formation of a mature and functional complex II of the electron transport chain. 

Read more in Nature Communications. 

KeAndreya Morrison, Meharry Medical College

thanks for the shoutout!

i did go through and watch the video, and while i think it does a nice job going through how AF2 works in a way that’s easy to understand, i agree that if may exaggerate how flawless the program is

one big thing i take issue with is the idea that structural biology as a field is becoming irrelevant. while yes this can be really helpful and has made it way easier to make predictions without the need for an experimental structure, there are still plenty of labs doing structural experiments. even if the confidence of a structure is around 90%, small details like the angle of just a few side chains can significantly impact binding surfaces and influence drug design, for example. predictions are great, but don’t entirely replace experimental confirmation.

it’s also worth noting that the data set has some bias to it. many of the structures from the PDB that they used to train the model are from x ray crystallography, which only captures a static image of a protein and can’t really be used for intrinsically disordered regions. (it wasn’t mentioned, but there are also several structures determined by NMR and cryo-EM that have been deposited, and all these methods have their pros and cons)

i’m not trying to be negative, and this technology has massive implications for health and other research, but i also think its always worth being critical and acknowledging limitations. they said that the protein folding problem is solved, which i disagree with. one part of this problem is figuring out a protein structure given its sequence, which they have made massive progress towards, but the other part is looking at HOW it folds, especially in the context of a cellular environment, which is still largely unknown.

hi have you seen the very recent video by veritasium? i know you're most likely not the most qualified expert but i'd like to hear what you thought/ what interesting things you might add about it!

https://www.youtube.com/watch?v=P_fHJIYENdI

(easy link)

awesome video that shows off one of the best uses for AI computation.

i don't have much to add, except that the video makes it kind of easy to walk away thinking AlphaFold is a perfect program, which is not true. its usefulness is very limited by its accuracy (90% still leaves a lot of room for error!) and the way it topologically builds the protein structure. it's also worth noting that protein structure is not always rigidly defined! many proteins in your body need to be disordered to function:

if you're looking for a more silly application for science though (which i assume most people following this blog are), @hellsite-proteins is a gimmick blog that runs posts through AlphaFold, the exact program talked about in this video. give them a look!

T Ch.2 NMR

Pairing: Puma Hybrid!Niki × Black panther hybrid black!Fem reader

Genre: angst, fluff, crack; strangers to friends to lovers au

Ch. Warnings: aggressive behavior, hostility, sibling beef, cursing , mentions of injuries

HYBED HYBRIDS MASTERLIST

next chapter. Previous chapter.

“So how was your first day?” Yn’s dad ask looking at her from the rear view mirror

“It was okay” she says flatly looking out the window

“Doesn’t sound like it was okay” he says frowning

“She’s mad I called shot gun and embarrassed her in front of her boyfriend” her brother says laughing causing her to scoff

“Boyfriend?!?!” Her dad says

“Kameron shut the hell up. Nobody cares about the front seat. And he isn’t my boyfriend I hardly even know him” she says rolling her eyes again

“You shut the hell up! Bitter ass” he says turning around in his seat to look Yn up and down

“Nobody’s bitter just leave me the fuck alone” Yn says shaking her head

“Stop all that cursing! Damn! Why can’t you guys just get along?” Her dad asks parking the car as they pull up to the house

“She makes it really hard to get along with her” Kameron says rolling his eyes

“Trust I don’t want to get along with you either. Even being in the same fucking car as you is suffocating” Yn says getting out the car before her dad or brother could respond

Her dad sighs as she slams the door extra hard marching up to the front door also slamming that.

“What’s the issue between you and your sister? You two use to be attached at the hip” Their dad says making the boy shrug

“People change and they drift apart. Me and Yn just don’t mix anymore” he says shrugging

“How can you say that she’s your sister” the man asks lightly hitting the sterling wheel

It was quiet before Kameron shrugged making his father sigh

“Gon get, I have to get back to work” the man says

“Alright bye dad” Kameron says getting out the car

“Soooo how was school?” Niki’s mom asks with a smile

“It was actually pretty good! I guess you could say I have to new friends” Niki says throwing his bookbag on the ground

“How many times has mom told you not to throw your things down?” Nikis sister asks

“Too many too count” Niki says plopping down at the island

“If Hana comes in and trip over your stuff again you know she’s gonna be pissed” emi says giggling

“So what’s the name of your friends?” Niki’s mom asks

“Jungwon and Yn”.

“Yn sounds like a girl” emi says smirking

“Yn is a girl” Niki says making his sister and mother ouuuu at him

“Stop! Why’re y’all doing that!?” He asks

“Is she your girlfriend?” Emi asks nudging him

“Emi no! Stop it! We just met today!” He says pushing her back

“What does she look like?” His mom asks

“Uh she’s almost tall as me, she has brown eyes oh! And she’s a panther” Niki says

“Ouuu a panther? Your made for each other” emi says making kissey faces and noise making Niki blush

“Emi quit it!” He mumbles making his mom laugh

“Ow! Niki!! I’m gonna kick your ass!” Hana shouts causing Niki to jump down from his seat at the island

“Uh oh” he says running up the stairs

“Run Niki run!” Emi shouts as Hana runs past her to get to Niki.

She wasn’t fast enough because Niki was able to make it to his room, slamming the door and locking it.

“Ugh! You still have to come out at some point! I’ll get you then!” She says kicking the door

Niki giggles as he hears his mom yell at her for kicking the door. He takes his phone out his pocket jumping onto his bed.

Opening the instagram app, just scrolling through the notifications. He had gained a few new followers from school(only 6). As he was scrolling he came across the “people you may know” section and spotted what looked like Yn.

“Lmao.yn” Niki mumbles to himself

He clicks onto the profile opening it up to see at least 4 pictures of yn. His eyes widen at the amount of followers she had

“2589 followers?! Whoa” he says remembering his 728 followers

Scrolling back to the top of the page, he bites down on his lip debating if he should press the follow button or not.

The intrusive thoughts won and he pressed the button. When he realized what he did, he turned the phone off throwing it down on and jumping up from his bed.

He his over to his desk and starts on his homework. About 20 minutes later his phone went off. He looks over his shoulder at the phone debating if he should check it or not.

After debating for 5 minutes he got up and checked

“Lmao.yn has followed you.”

Niki smiles before putting his phone on the charger and going back to his homework.

He’s definitely going to like highschool.

The next day…

Yn woke up with the same throbbing in her ear and she was only blaming Kameron. She groans going to the bathroom too look at her ear in the mirror.

It looked a little limp and red. She groans running her hands down her face

“Hurry up and get out the bathroom rat!” Kameron says knocking on the door

“Go use mom and dads bathroom I just got in here” Yn shouts

“Your taking too long! It’s my bathroom too!” He shouts

The bathroom had to doors which led to both of their rooms but Yn didn’t feel like sharing this morning so she locked the doors on both sides.

“Yn unlock the door!” She hear her dad shout. She decided to ignore him and continue to do her morning routine. When she was done she unlocked the door to her brothers room and he instantly snatches it open pushing Yn almost making her fall

“Get out” he says turning on the shower

She didn’t feel like arguing so that’s exactly what she did. She went into her room and got dressed and ready.

Grabbing her bookbag and phone she heads downstairs

“Dad have you seen my watch-oh thank you” she says as the man hands her the Apple Watch

“Yn why did you lock your brother out the bathroom? That’s his bathroom too” her mother asks causing her to roll her eyes

“We literally have two other bathrooms tell him stop crying” Yn says grabbing the plate of toast

“Tell her stop being a bitch” Kameron says coming down the stairs

“Boy watch yo mouth, don’t call your sister the B word” her dad says glaring at the boy

“I don’t feel like dealing with this rivalry shit this morning- Yn what’s wrong with your ear?” Her mother asks

“Kameron pulled at it” Yn mumbles

“She started it! She pulled at my tail!” Kameron says

“Now your hurting each other? Just get out! Go to school” their mom says sighing

Kameron shrugs taking his toast going to the car.

“You guys need to work things out” her dad says grabbing his keys and brief case

“It’s too late he hates me” Yn says walking out the door

“Now why would she say that!” Her mom says in disbelief

“She’s angry and you know how she gets when she’s upset” the man says kissing his wife before bidding her goodbye

The ride to school was silent. Nobody talked about what was said this morning it’s was silent. When they pulled up to the school Kameron was the first to jump out and run to his friends.

“Your moms picking you two up, I have to stay at the firm late” he says making Yn nod

“Okay. Love you dad” she says getting out

“Yn!” Her dad shouts causing her too turn around

“Try and have a good day” he says Making the girl nod

Yn turns around looking over at all the different cliques. Her brother and the delinquents. The athletes. The robotics kids. The popular kids.

She didn’t have a clique. Her only friend didn’t even attend this school. She sighs walking slowly to the school.

“Yn!! Ynie!!”

Yn looks up seeing Niki running over to her with a big smile

“Hey Ynie!” He says out of breath from running

“Hi Riki” Yn says smiling back.

Just niki smiling made her morning a whole lot better.

A/N: This was WAAAAY over due but I’m kinda liking the Niki story line now that I have idea

Also this was not proof read so sorry for any mistakes🧍🏽‍♀️

NB! Chapter 2 will be posted on @brownsugarbaybee ‘s blog! So follow her and the tag #HYBED HYBRID SERIES, to stay caught up.

What is Nuclear Magnetic Resonance (NMR) Spectroscopy?

And How Does It Work?

(for primarily @phantasyhalation though everyone else who gets subjected to this post can enjoy it as well)

Nuclear magnetic resonance (NMR) spectroscopy is an analytical method mostly used by chemists to observe the environments that the nuclei of atoms observe.

It is performed by using extremely powerful superconducting magnets and radio waves.

The magnets look something like this:

(Thanks, University of Minnesota)

The large black object in the center is a very tight coil of wire that superconducts at low temperatures. Superconduction is conduction of electricity with very little to no resistance; this requires a lot less power to run the instrument. The coil of wire acts as a solenoid, creating a STRONG (5+ Teslas; the most common magnetic field used is 9.4 teslas) linear magnetic field pointing upwards through the center of the instrument; it creates a magnetic field pointing downwards around the outside of the instrument (which is very strong if the instrument is not heavily shielded, and still noticeable if the instrument is.) The coil of wire is kept at low temperatures by a chamber outside it containing liquid helium; this liquid helium chamber in turn is cooled by a liquid nitrogen chamber.

Why do we want the magnetic field? Well, all nuclei have an inherent property called "spin." Spin is a property described by angular momentum, which will be important in a moment, but for now, think of the earth spinning on its axis; if the earth was a perfect sphere, you wouldn't be able to see it. A lot of nuclei have a net spin of zero, but they still have spin; in the same way that you can say you are "moving at 0 miles per hour" when you are standing still. (Relative to your frame of reference, of course; we'll be using frames of reference again in the future, so take note.)

Quantum physics dictates that normally there are 2 spins a nucleus can take: one positive, or "up", and one negative, or "down." Normally, there's a 50/50 chance that a nucleus has spin up or spin down; when a nucleus is near another nucleus that has the opposite spin, it's happy, and won't want to be affected by outside forces like light much.

The above picture shows half and half spin up and spin down nuclei in an abstract representation. (The ones on the top level are pointing up, the ones on the bottom level are pointing down.)

However, placing nuclei in a magnetic field that points up will cause them to be slightly more likely to point up than down, like this:

We call spins that are under the influence of a magnetic field and doing this "polarized". Now, remember what I said earlier about nuclei that are near other nuclei of the opposite spin being happy and unlikely to be affected by outside influences? We now have some nuclei (pointing upwards) that are unpaired, and can be affected by outside forces.

Now, we talked about the earth spinning on its axis earlier. But let's say I tilted the earth over on its side. It would still just rotate on its axis, right? This is NOT the case for nuclei. Nuclei will still try to spin around their original axis- while in actuality they're "pointing" away from it!

(Like this:)

To be clear, what is "pointing" away from the original axis is another property of the nucleus: its magnetic moment. Basically, every nucleus with a nonzero spin creates a tiny little magnetic field; the way that that magnetic field points is called the nuclear magnetic moment.

We call the attempt to spin around the original axis while tilted away from it "precession" rather than "spinning" because it doesn't describe nuclear spin.

But how is this useful to us? Well, I described the tiny little magnetic fields of the nuclei earlier, right? If they're all precessing in unison- or in resonance (moving at the same frequency and pointing in the same direction) their movement is enough to cause a tiny little change in voltage in wires that are nearby. We can measure that change in voltage and look at it; broadly speaking, every atom's nucleus precesses at a different frequency, dictated by the strength of the magnetic field the nucleus is in and the nuclear magnetic moment. This is known as the Larmor frequency.

Pretty useful, right? But how would we tilt the nuclei over? We just have them sitting in a strong magnetic field right now.

Well, our unpaired nuclear spins are back to help. If we hit them with a beam of radio waves at the exact right frequency, and at the exact right angle, for the exact right amount of time, we can knock our nuclei over and get them to start precessing. Normally, we knock them over to be exactly perpendicular to their original spin (90 degrees angled away) but we sometimes knock them over a different amount for various applications.

Now our nuclei are precessing, and creating a small voltage. Eventually, thanks to entropy, they'll get out of sync with each other and cancel the small voltage out (and eventually they'll become realigned with the magnetic field and start pointing upwards again), but this takes a very long time compared to the time it takes a nuclear magnetic moment to cycle once around its axis (on the order of thousands or tens of thousands of times as long). This means that we can look at the nucleus and find out what it is by seeing the frequency that it's precessing at- we take a Fourier transform (taking the change in voltage over time and changing it to the voltage intensity over frequency, so we see at which frequencies of precession the voltage is present at) and see the Larmor frequency; this lets us find out which nucleus we're looking at.

In practice, though, this voltage our nuclei are creating is really really small. So we want to make it bigger so our computer can look at it; we do this with a machine called a preamplifier, which is basically a radio or TV antenna; it's tuned to a range of frequencies, and increases the power of all voltage that it receives of frequencies within that range. In actuality, we know the Larmor frequencies of essentially all nuclei with nonzero spin, so we can simply set the preamplifier tuning around there.

Great! This tells us which nuclei we have. However, there's one small problem; the electronic environment a nucleus is in can alter its precession frequency very, very slightly. This change is measured in millionths of the original frequency- it's very small- but you'd think it would pose a problem for measurement, right?

Not quite. In fact, this is how we determine the structure of molecules. We measure a range of frequencies, not just one, remember? The electronic environment of nuclei is determined by the electrons that surround them; this changes based on where they are in a molecule. Therefore, we set a reference at the Larmor frequency, and see how far certain voltage spikes are from there; by comparing the distance of each peak from the reference frequency to a set of known environments that nuclei can be in as well as to how electron-dense/electron-poor areas within a molecule are, we can figure out molecular structures.

We can do a lot of other things, too (the speed at which our voltage disappears can be used for a lot of interesting things, for example!) but this is the basic way NMR is used by most people.

To finish up: here's the one-dimensional (measuring intensity of voltage over just the change in frequency) hydrogen NMR spectrum of menthol (thanks Wikipedia). Happy spinning!

Lana LP1-4 Reviews

Here I will be listening through the first 4 LPs of Lana Del Rey for the first time, as a late-in-life super fan (Post-NMR poser). Sorry for anything perceived as hate, I do love this woman. 

Born to Die (2012)- This is when the trip hop beats feel a bit canned and temporally displaced from their English, 90s origins in an awkward way, and the strings feel a little canned too— reaching for Zimmer-esque grandeur but falling short. She also uses voices on this that eventually disappear completely from her repertoire, sometimes evoking weird freak-folk stuff like CocoRosie but in a bad girl poet context. She does a Lolita or Little Orphan Annie thing on track 2 Off to the Races, and becomes a weepy tweety bird lush hiccuping her way through Blue Jeans, and I do not bemoan the loss of this slutty b-tier Bond girl schlock she would eventually shed and become more direct about critiquing. It was probably always critique of the male gaze all along, but the lines are blurrier in the beginning for sure when she isn’t willing to so eloquently describe the dimensions of her containment within a patriarchal system. 

I imagine how much this must have spoken to the “bad” yet vaguely creative-seeming girls I knew in high school. Lana offered them a clarion call to actualization. By the time this came out though, I was in college working at an Urban Outfitters, and I remember distinctly that the cover photo with the sheer collared blouse and the anal-y coiffed, voluminous Auburn-dyed hair. It just seemed like a in-store promo. “this must be the UO special edition” I thought to myself. 

But no, this is how Lana presented, and it happened to coincide with a stupid new idea of the “hipster” that flourished under Obama. Irony, and something about the 60s and 80s and mustache memes all coincided in a fresh new hell that Lana could slot into. But she wasn’t neat and tidy like, say, Vampire Weekend. She was a bad girl. But was it just a bad girl character on par with early Gaga with her vacant party girl shenanigans? Was it new? Ultimately Lizzie Grant will of course go on to reveal the artifice in full, proving the authenticity of the bit as artifice and then go on to remove the mask and invite us in forreal, not just into another one of her haunted mirror labyrinths of lust. 

But as I already knew, Lana is less interesting here when she is refusing to take off the mask. This character could definitely speak deeply to someone who sees themselves as actually living a life comparable to that of this Lana Del Rey creation, and the stunning vividity with which the bit is rendered can be engrossing on its own. If all I can hear is the bit, the character, the “mask”, though, well then it’s all artifice without the true artistry she would harness later on and I question what lies beneath without much of an answer in sight. Video Games might come the closest as obvious as it sounds. The critique of her own character and of the culture at large becomes a little more defined. 

The contours of MTV’s idea of reality and its failing in the broader context of the 20th century, so tacky and Ed Hardy-ized compared to this misremembered flapper era opulence she insists on reminding us of, it all feels like the ultimate Punk-ing. To dog us all like that while also presenting as the ultimate specimen of a post MTV world. What would you have us do Lana? Go back to the 20s, be rich and white? Go back to the “Gay 1890”s and live for crystalline jazz singers hanging from chandeliers as champagne showers over us, absolving us of our post-industrial, Walmart-ified sins and burning us in a holy conflagration. Nice try Lana, but you’re gonna need to try again next time. Game Over. 

7.2/10 (Little more about the music… the writing, the beats, everything is serviceable here, the production helps things never become sleepy, which her vocal stylings might have eventually done. She does not hold back in terms of describing every cubic inch of the world-view of this Lana character. This is not just instagram filter music. It is deeply realized and sometimes novel-esque, if only in terms of seeming like a 11th grader’s slightly last-minute book report on Gatsby. But the ultra textual-density is all already there all along, sheer lyrical depth on par only with conscious rappers. You will not normally find this many words on any other pop records in 2011, that I can almost guarantee. And you also will not find such an utterly and deeply realized aesthetic world, unlike anything any other starlet was even attempting at the time.)

Ultraviolence (2014)

She’s singing softly again, like she always does. 

She’s coming on to me, (the gay male listener). 

After work, she pulls me in close by my blue paisley-patterned tie and I’m overwhelmed by her Chanel. She’s pulled me back into her world again and I’m hers completely, again and again and again~

This is the one where Lana steps out of the filtered instagram images evoking an abstract past and into the technicolor world of reality, where the Pygmalion of Lizzie Grant’s mind walks full-figured and flesh-covered from out of the mall displays like Kim Catrall in Mannequin (1987). But instead of a bright new future for Lana, this newfound realness comes more in the form of the specificity of a monochromatic, noir landscape and a world utterly described. 

Right off the bat, atmosphere seems to have taken on new importance. On her first outing, Lana was proving she was a real girl who could walk and talk. But on UV, now she has a whole windswept seaside to herself to pal around— she isn’t just Off to the Races anymore, but instead insists that every grassy lawn that exists in America is part of her vivid world, which now includes the aesthetics of the films of Lynch and Tim Burton as touchstones. The way they too revel in revealing the decay hidden by suburban facade through film, is also intrinsic to Lana’s music. 

This tension too is a part of her world, alongside all the F. Scott Fitzgerald signifiers— sometimes she even seems to be singing to us from the snow globe of Citizen Kane. A starlet tripping the light fantastique in Gotham’s red light district, but now speaking more directly about matters of the soul than merely of the body. And to really Make it Real, she extends her references explicitly: 

They think I don't understand

The freedom land of the seventies

I get down to Beat poetry

And my jazz collection's rare

I can play most anything

I'm a Brooklyn baby

(on Shades of Cool). Well okay then Lana, maybe you are more than a mood board. Maybe you like Didion and Kerouac, that tracks. Does she actually like Nabokov or is Lolita entirely useful to her for surface-level reasons? In early interviews she speaks of Cobain and Cash and Dylan, the greats of every genre. And here she does seem more genre-minded… if the trip-hop on LP1 seemed almost out of place under her Jazz age affect, then by leaning into the noir and the gothic that someone like Portishead always channeled, she brings her work closer to something of undeniable substance. Whether she is a trust-fund kid yucking it up in Brooklyn and cultivating a personality made up of vapid cultural cherry-picking, or if she is in fact slyly making fun of that girl is besides the point. She’s real now and she’s here and she’s taking (some) questions. 

She tells us on Sad Girl that she’s “a sad girl”. Not just in the summertime then? Do we take her word for it, or is this simply clarification. But we should have known that a being trapped in nostalgia like her early incarnation so clearly is, that she could not possibly be happy constantly looking back like that (or else looking in the mirror). That’s what fast sex and Chiffon is for, always has been, to distract from always looking to find one’s future hidden somewhere in the past. 

Generally, we’re introduced to a laconic Lana here. Gone mostly are the peppy, borderline creepy Lolita-isms, and most of the higher BPMs. Now there is darkness and there is violence in its wake. But whether it’s the literal violence of the darkest of relationships or the violence of what ensues when a Fame Monster begins to consume and digest an individual, as it had thoroughly begun to do to Lana, well that all depends on perspective. 

Lana had had her awkward SNL performance by now. She had already moved past the discourse around ideas that she was merely an “industry plant”. Something about the times back then and how Adele was the only pop star we allowed to write in a singer-songwriter mode had us truly questioning if this unique artist could possibly be real. “Fucked My Way to the Top” says to stuff all of that, that it’s not that deep. And we’re inclined to believe her. 

Lou Reed is mentioned. The beats too. But so is Axel Rose. And the drugged out Lolita returns roughly one time, on Florida Kilos, towards the end. But she’s mostly resolved to stay in ballad mode. She leaves bread crumbs, but the destination isn’t the point. Lana’s artistry here by merely existing as it does seems to say over and over to stop the meaningless discourse. To just shut up. ‘Here is some art that I made, that i needed to make’, she seems to say. And if the mood board seems more varied and specific this time than just ‘The Great Gatsby,’ well I think we’re inclined to keep believing her. She could have truly pulled back and become pure caricature after LP1. Instead she leaned in, slowed it down, clarified herself, and spoke of an all consuming darkness. A decade later and she’s still finding light amidst all the death and the violence of a Cruel World. 

8.3/10

Honeymoon (2015)

Well, so I have a confession to make. A bit of a mask-off moment for myself after so much talk of character and artifice. It turns out, embarrassingly enough, that I simply have trouble getting into or distinguishing a lot of early Lana. I say that as a super-fan of the recent 4 LPs, but that may not qualify much. Those who go all the way back with Lana are the real ones. And now that I think of it, more of BTD may have stood out to me than LP2 and 3. Despite the sunny cover featuring our honey looking glamorous in a sun hat, this album mostly continues the thread of dark glamour and decayed opulence she began to focus on between her debut and this 3rd full length outing. 

A bit of background: As is the case with many recent bangwagoners, Norman Fucking Rockwell is the moment I went from being a sometimes curious spectator to full stan. Specifically, with the initial utterance on that record (Goddamn, man child/ you fucked me so good that I almost said I love you), Lana had kicked down a backdoor in my mind and ever since that day, she has been with me. Even in 2019, that last summer before COVID, when the greatest ruled both my mind and my piano alike, I remember thinking: Oh, I should go back to her older LPs, right? But even then I knew the answer. It simply might not be for me, that earlier stuff. 

And why? The answer either does not exist clearly or is an uncomfortable one. NFR bandwagoners like me should almost feel a need to explain clearly that we are not actually just stans of Jack Antonoff’s production. It might feel that way given the data... he starts working with on her on LP5 which is the first to make a serious ripple on tastemakers’ AotY lists after years of resistance. And then he has been a mainstay collaborator ever since. But that can’t be it. I refuse to give a man credit when the majority of the words and melodies are hers. So what is it? Well, that is something to speak of when I do get to NFR and the material that followed. 

For now, I will focus on Lana’s honeymoon phase, even if it is a honeymoon as tragic as her Ultraviolence days. Much of this glides by my ears, and unlike post-2018 material, neither the melodies nor the lyrics often truly grab me. Now to be clear, nothing is bad, nothing is offensive... it’s all often so lovely. And on-brand. But it’s more than beautifully on-brand, right?

Well if the first two LPs had me thinking so much of the character of Lana, well then Honeymoon is the record that has me thinking more about the listener. The listener that Lana imagines when writing, the one she is singing to. Both the imagined one and the literal actual one. She is a girl between the ages of 14 and 24 I believe. She may or may not have had dog-eared copies of Gatsby or Lolita on her dorm-room desk. A poster of Gustav Klimt’s The Kiss on the wall. Does she have crystals? Thoughts about astrology? (yes). 

Does she have a troubled past and upbringing? I think she likely does. That this platonic listener of my dreams, whose spirits still haunt r/lana and r/lanita alike, that she truly receives from beyond through these records, of that I am sure. That there is healing for that girl inside of these songs, positive. 

I know that several times this girl has moved on from Lana only to return when she needed her most. After a big breakup, or a big meltdown or a really, really bad day at work. But Lana’s songs are also there in the good moments. Nothing here is so blatantly “sad” that it cannot also just mostly be “pretty,” beautiful and transcendent of being emotionally one-note. Fodder for a road trip to the Grand Canyon. Or a time in her life when everything is calm and she can’t believe that death and violence is behind her now. Lana has and will soundtrack all of that for her. New songs to paper over the walls of her own mind with every year or so.

And so now something like Honeymoon is alive for me again. Because I understand at this point, that this is a conversation. And if I am not always one end of this two-way, than I am lucky enough to hopefully (and not intrusively, unwantedly) take part. Maybe some things, for some people, should stay behind glass. It might not be for me per se, and that’s ok. 

7.0/10

Lust for Life (2017)

She looks the most like my mom on this cover photo. And this is the first time she’s so clearly gone for a 60s thing... specifically a 1967, Summer of Love thing, Haigh-Ashburry, San Francisco, She’s Leaving Home kind of thing. It’s all right there on the cover and in that smile, and the daisies in her hair, if not always the actual music. 

So then this is the far-flung future for Lana. If her music and image and her character was always so haunted by some kind of vague 20s-through-the-50s specter of the recently Old World, then now she’s inhabiting a time that some of our parent’s might actually remember. And to make her intentions clear, that vibrato’d out surf guitar bass on opening track ‘Love’ screams Nancy Sinatra. And the white lace chiffon 

How Does NeuroMuscular Reprogramming Work? NMR is a kinesthetic conversation with the Organizational Intelligence of a living system. It lights up the proprioceptive feedback from the body. Even a body with a coordination problem that has been around for years is just waiting for more information with which to self correct. NMR provides that more information. Neuromuscular Reprogramming, bringing a muscle fully on board with the motor response system, is the first step in correcting body biomechanics. Without neuromuscular connectivity or facilitation, the muscles will not benefit as much from exercise. They will not build muscle mass. They will strain, harden and eventually break down, feeling limited in response no matter how much you exercise. After a muscle is fully facilitated it needs to be trained. The client needs to take over the controls and make that correction stick. A therapist can put in the needed new information in the form of facilitating function. A fitness educator can provide instruction about how to condition the new movement. 

Using a muscle reinforces access to the motor pathway. What is awesome is the living intelligence of the body. A simple touch can show it how to redirect its energy. Our hands are guides. We can see what it should be doing and our seeing informs the body’s structure. If you can feel what a body needs to change in order for something to work the way it is supposed to you can influence that outcome. NeuroMuscular Reprogramming appears to be a perfect tool for the job. 

TRAINERS, Maximize Your Outcomes….Add NMR to your tools and correct the biomechanics of your clients prior to assigning exercises for conditioning. Help your clients get brilliant results with strength and endurance training. 

CHIROPRACTORS, Make Adjustments Stick….Reprogram the motor coordination supporting the alignments you correct for the quickest results and longest lasting treatment outcomes.  

MASSAGE THERAPISTS, Save Your Hands…Find out what is making those knots and hard muscles and address the problem at the source, in the motor coordination center of the brain

[Jocelyn Olivier :: NeuroMuscular Reprogramming]

Ajwain Raw Honey gives amazing benefits for skin, weight loss.

Ajwain, which is called carom seeds in English,  is an asian spice which has a bitter pungent taste used in various dishes for adding flavour. It does not only give aroma and taste but also health benefits.

Ajwain Raw Honey is one such product of Ajwain which is used as a natural sweetener. Pure ajwain honey is collected by installing bee colonies inside the field of blooming ajwain flowers. Due to medicinal properties and many nutrients, it is widely used. It contains omega 6 fatty acids that cure from acidity & indigestion.

Benefits of ajwain honey-    • Gives instant energy    • Relief from stomach ache and gastric problem    • Helps to weight loss    • Keep fit & young    • Heal burn and wounds Precautions to take while consuming honey    • Never mix honey with ghee, hot spicy foods, fermented beverages like whiskey, rum and many more.    • Don’t mix it with hot foods and water.    • Shouldn’t heat it to above 40 degree celsius.    • If any person is working in a hot environment, he should not consume honey. HOW MUCH HONEY SHOULD BE CONSUMED- CHILDREN- Children should consume 0.5-1 teaspoon honey with any other natural products like a pinch of black pepper or very small quantity of ginger juice.

ADULT- Honey should be consumed 1-2 teaspoons with lukewarm water to get its full benefits. Ajwain honey is an amazing natural food that has numerous benefits but it should be pure and natural. Fake honey has a similar taste to original honey but it is not produced from nectar of ajwain flowers rather ajwain flavor is mixed. Healthy roots a local brand who provides you 100% natural honey,which is directly taken from hives and bottled. Neither heat nor adulteration is given. Advantage of this honey is    • 100% natural    • No chemicals & no heat    • Available in 15 different tastes    • NMR tested Add honey in your daily life and stay healthy. call us - 7208851114

The Importance of Dog Unique ID Generation Using National Microchip Registry (NMR)

Introduction

In an era where pet safety is a major concern, assigning a unique identification (ID) number to your dog is essential. A microchip-based unique ID is a permanent and reliable way to ensure your pet’s identity can always be verified. National Microchip Registry (NMR) provides a streamlined and secure way to generate a unique ID for dogs, offering peace of mind to pet owners by enhancing security and traceability.

How Does Dog Unique ID Generation Work?

The process of assigning a unique ID to a dog through NMR involves the following steps:

1. Microchipping Your Dog

The first step in creating a unique ID is to implant a microchip under your dog’s skin. This microchip contains a unique 15-digit identification number, which acts as your pet’s lifetime ID.

2. Registering the Microchip with NMR

Once your dog is microchipped, the next crucial step is registering the microchip number with NMR. This process links the unique microchip ID to your personal contact information in a secure database.

3. Nationwide Tracking & Identification

If a lost dog is found, veterinarians, shelters, or animal control officers can scan the microchip to retrieve the unique ID and access the registered contact details through NMR. This ensures a quick and efficient reunification process.

Why Use NMR for Dog Unique ID Generation?

1. Globally Recognized Unique ID

NMR microchips comply with ISO standards, making them compatible with universal scanners worldwide. This ensures that no matter where your dog is found, their unique ID can be recognized.

2. Secure & Permanent Identification

Unlike collars or tags that can be lost or removed, an NMR unique ID is permanently embedded in your pet, ensuring that their identity remains intact throughout their life.

3. Lifetime Registration & No Annual Fees

NMR offers lifetime registration with a one-time fee, eliminating the need for annual renewals or hidden charges.

4. 24/7 Pet Recovery Assistance

NMR provides round-the-clock support to help reunite lost pets with their owners, utilizing its extensive database and notification system.

5. Easy Access & Information Updates

Pet owners can update their contact details anytime in the NMR system, ensuring that their dog’s unique ID remains useful even if they move to a new location.

Conclusion

A unique ID generated through National Microchip Registry (NMR) is a vital step in responsible pet ownership. It ensures that your dog’s identity is secure, traceable, and recognized nationwide. By choosing NMR, you guarantee lifetime protection and a higher chance of reuniting with your beloved pet if they ever get lost.