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Aave Protocol: Leading DeFi Lending and Borrowing Platform
aave network
Aave Protocol is one of the most prominent decentralized finance (DeFi) platforms, renowned for its innovative lending, borrowing, and liquidity solutions. It has established itself as a key player in the DeFi ecosystem, offering a wide range of features including flash loans, liquidity pools, and decentralized exchanges.

Aave Network
The Aave network operates on multiple blockchain networks, primarily Ethereum, but also supports other chains like Polygon, Avalanche, and more. It provides a secure, scalable infrastructure for DeFi activities, enabling users worldwide to lend, borrow, and earn interest on their crypto assets.

Aave DeFi
Aave DeFi refers to the ecosystem of decentralized financial services built around the Aave protocol. It includes lending pools, liquidity provision, yield farming, and innovative products like flash loans, all designed to maximize capital efficiency and decentralization.

Aave Lending
Aave lending allows users to deposit their crypto assets into liquidity pools and earn interest. Borrowers can take out loans against their collateral, often with flexible terms and variable or stable interest rates. This system promotes liquidity and capital efficiency within the DeFi space.

Aave DEX
While Aave itself is primarily a lending protocol, it integrates with decentralized exchanges (DEXs) for seamless asset swaps and liquidity management. Some platforms combine Aave’s lending features with DEX functionalities, enabling users to swap tokens directly within the ecosystem.

Aave Pool
An Aave pool is a smart contract-based liquidity pool where users deposit assets to earn interest and provide liquidity for borrowing. These pools are the backbone of the Aave protocol, supporting various assets and interest rate models.

Aave Protocol: Leading DeFi Lending and Borrowing Platform
aave network
Aave Protocol is one of the most prominent decentralized finance (DeFi) platforms, renowned for its innovative lending, borrowing, and liquidity solutions. It has established itself as a key player in the DeFi ecosystem, offering a wide range of features including flash loans, liquidity pools, and decentralized exchanges.

Aave Network
The Aave network operates on multiple blockchain networks, primarily Ethereum, but also supports other chains like Polygon, Avalanche, and more. It provides a secure, scalable infrastructure for DeFi activities, enabling users worldwide to lend, borrow, and earn interest on their crypto assets.

Aave DeFi
Aave DeFi refers to the ecosystem of decentralized financial services built around the Aave protocol. It includes lending pools, liquidity provision, yield farming, and innovative products like flash loans, all designed to maximize capital efficiency and decentralization.

Aave Lending
Aave lending allows users to deposit their crypto assets into liquidity pools and earn interest. Borrowers can take out loans against their collateral, often with flexible terms and variable or stable interest rates. This system promotes liquidity and capital efficiency within the DeFi space.

Aave DEX
While Aave itself is primarily a lending protocol, it integrates with decentralized exchanges (DEXs) for seamless asset swaps and liquidity management. Some platforms combine Aave’s lending features with DEX functionalities, enabling users to swap tokens directly within the ecosystem.

Aave Pool
An Aave pool is a smart contract-based liquidity pool where users deposit assets to earn interest and provide liquidity for borrowing. These pools are the backbone of the Aave protocol, supporting various assets and interest rate models.

Keplr Wallet: Your Gateway to Cosmos Ecosystem
keplr wallet download
Keplr Wallet is a popular browser extension and mobile wallet that provides users with secure access to the Cosmos ecosystem and other compatible blockchains. It enables seamless management of assets, staking, and interaction with decentralized applications (dApps).

Keplr Overview
Keplr serves as a non-custodial wallet that supports multiple chains within the Cosmos ecosystem, including Cosmos Hub, Osmosis, Secret Network, and more. It offers a user-friendly interface for managing tokens, staking, and participating in governance.

Keplr Extension
The Keplr extension is a browser plugin available for Chrome, Firefox, and other browsers. It allows users to connect to dApps, manage assets, and perform transactions directly from their browser with enhanced security.

Keplr Dashboard
The Keplr dashboard provides an overview of your assets, staking status, transaction history, and governance participation. It offers a centralized interface to monitor and manage your crypto holdings within the Keplr wallet.

Keplr Wallet Download
To start using Keplr, you can download the extension from the official website or browser extension stores:

Keplr Official Website
Chrome Web Store
Firefox Add-ons
Keplr Wallet Staking
Keplr supports staking for various Cosmos-based tokens. Users can delegate their tokens to validators, earn staking rewards, and participate in network governance directly through the wallet interface.

Keplr Wallet Login
Logging into Keplr involves:

Installing the extension.
Creating a new wallet or importing an existing seed phrase.
Connecting to supported dApps or networks.
Managing assets and staking directly from the wallet.

Solflare Wallet: Your Gateway to Solana Ecosystem
solflare wallet extension
Solflare Wallet is a popular non-custodial wallet designed for managing, staking, and interacting with the Solana blockchain. It offers both a web extension and a mobile app, providing users with a seamless experience for DeFi, NFTs, and staking on Solana.

Solflare Wallet Overview
Solflare supports a wide range of functionalities, including token management, staking SOL, participating in DeFi protocols, and engaging with Solana-based NFTs. Its user-friendly interface makes it accessible for both beginners and experienced users.

Solflare Wallet Extension
The Solflare wallet extension is a browser plugin compatible with Chrome, Firefox, and other browsers. It allows users to connect to Solana dApps, manage assets, and perform transactions directly from their browser securely.

Solflare Wallet Download
You can download the Solflare wallet extension from:

Solflare Official Website
Chrome Web Store
Firefox Add-ons
Additionally, the Solflare app is available for iOS and Android devices, providing mobile access to your wallet on the go.

Solflare Login
To log into Solflare:

Install the extension or open the mobile app.
Create a new wallet or import an existing seed phrase.
Secure your wallet with a password or biometric authentication.
Connect to Solana dApps or manage your assets.
Solflare App
The Solflare app offers a mobile-friendly interface for managing your Solana assets, staking SOL, and participating in DeFi activities. It provides a convenient way to stay connected to the Solana ecosystem from your smartphone.

1inch Exchange: The Leading DeFi Aggregator
1inch Exchange is a decentralized finance (DeFi) aggregator that sources liquidity from various decentralized exchanges (DEXs) to provide users with the best possible rates for token swaps. Its innovative approach optimizes trading efficiency, minimizes slippage, and enhances user experience across multiple blockchain networks.
1inch dex
1inch Network
The 1inch network is a decentralized ecosystem comprising multiple components, including the 1inch DEX aggregator, liquidity protocols, and governance mechanisms. It operates across various blockchains, such as Ethereum, Binance Smart Chain, Polygon, and more, to facilitate seamless cross-chain trading and liquidity aggregation.

1inch Swap
1inch Swap is the core feature that allows users to exchange tokens directly from their wallets. It intelligently splits orders across multiple DEXs to find the most favorable rates, reducing costs and slippage. This feature is accessible via the 1inch interface or integrated into other DeFi platforms.

1inch Crypto
1inch crypto refers to the native token of the 1inch ecosystem, used for governance, staking, and incentivization. Holding and staking 1inch tokens grants users voting rights on protocol proposals and participation in liquidity mining programs.

1inch DEX
1inch DEX is the decentralized exchange aggregator that connects various liquidity sources to offer optimal trading routes. It enhances liquidity depth and price efficiency by intelligently routing trades across multiple DEXs.

1inch Token
The 1inch token (1INCH) is the governance token of the platform. It enables holders to participate in protocol governance, propose and vote on upgrades, and earn rewards through staking and liquidity mining programs.

Velodrome Finance: The Next Generation DeFi Platform
velodrome finance
Velodrome Finance is a decentralized finance (DeFi) ecosystem designed to provide efficient, scalable, and user-friendly liquidity and trading solutions. With features like Velodrome Crypto, Velodrome Exchange, and Velodrome Finance Swap, the platform aims to enhance liquidity provision and asset management within the DeFi space.

Velodrome Finance Overview
Velodrome Finance focuses on creating a robust DeFi environment that supports decentralized trading, liquidity pools, and yield farming. Its ecosystem is built to facilitate seamless asset swaps, liquidity provision, and staking, making it a comprehensive platform for DeFi enthusiasts.

Velodrome Crypto
Velodrome Crypto refers to the native tokens and digital assets within the Velodrome ecosystem. These tokens are used for governance, staking, liquidity incentives, and participation in various DeFi activities on the platform.

Velodrome Exchange
Velodrome Exchange is a decentralized trading platform that allows users to swap tokens directly from their wallets. It emphasizes low slippage, high liquidity, and fast transaction speeds, providing a smooth trading experience for DeFi users.

Velodrome Finance Swap
Velodrome Finance Swap is the core swapping protocol within the ecosystem, enabling users to exchange tokens across different pools efficiently. It leverages Velodrome’s liquidity pools to facilitate secure and cost-effective token swaps.

Velodrome Fi
Velodrome Fi encompasses the yield farming, staking, and liquidity mining features of the platform. Users can stake their tokens, earn rewards, and participate in governance, contributing to the growth and security of the Velodrome ecosystem.

Velodrome Finance Exchange
Velodrome Finance Exchange refers to the entire decentralized trading and liquidity platform, integrating swap, staking, and liquidity provision functionalities. It aims to be a comprehensive DeFi hub for traders and liquidity providers.

Stargate Finance: The Future of Cross-Chain Liquidity
stargate finance bridge
Stargate Finance is a leading protocol in the decentralized finance (DeFi) space, specializing in seamless cross-chain liquidity transfer and asset swapping. Its innovative solutions, including Stargate Bridge, Stargate Swap, and Stargate Crypto Bridge, aim to revolutionize how users interact with multiple blockchain ecosystems.

Stargate Finance Overview
Stargate Finance provides a unified platform that enables users to transfer assets across different blockchains efficiently and securely. By leveraging its Stargate Bridge and Stargate Swap functionalities, the protocol ensures high liquidity, low slippage, and fast transaction speeds, making cross-chain DeFi more accessible.

Stargate Finance Bridge
The Stargate Bridge is a core component that facilitates cross-chain asset transfers. It allows users to move tokens from one blockchain to another without the need for multiple steps or intermediaries. The bridge is designed for security, speed, and minimal slippage, supporting a wide range of assets.

Stargate Crypto Bridge
Stargate Crypto Bridge refers to the broader infrastructure that enables the transfer of various cryptocurrencies across different chains. It supports interoperability between multiple blockchain networks, allowing users to leverage DeFi opportunities regardless of the native chain of their assets.

Stargate Swap
Stargate Swap is a decentralized exchange (DEX) feature that allows users to swap tokens directly across different chains. It combines liquidity pools with cross-chain capabilities, enabling efficient and low-cost token swaps without leaving the Stargate ecosystem.

Orbiter Finance: Connecting DeFi Ecosystems
Orbiter Finance is a cutting-edge decentralized finance (DeFi) platform focused on interoperability, liquidity, and seamless asset transfer across multiple blockchains. Its suite of tools and protocols, including Orbiter Swap, Orbiter Fi, and Orbiter Bridge, aims to enhance user experience and expand DeFi capabilities.
orbiter finance bridge
Orbiter Finance Overview
At its core, Orbiter Finance provides a comprehensive ecosystem designed to facilitate cross-chain interactions, liquidity pooling, and decentralized trading. Its primary goal is to enable users to move assets effortlessly between different blockchain networks, ensuring liquidity and accessibility.

Orbiter Swap
Orbiter Swap is a decentralized exchange (DEX) protocol within the Orbiter ecosystem. It allows users to swap tokens across various blockchains with minimal friction, leveraging the platform’s interoperability features. Orbiter Swap emphasizes low slippage, high security, and fast transaction times.

Orbiter Fi
Orbiter Fi is the yield farming and liquidity provision platform of Orbiter Finance. It enables users to stake their tokens, earn rewards, and participate in liquidity pools across multiple chains. Orbiter Fi aims to maximize returns while maintaining cross-chain compatibility.

Orbiter Bridge
Orbiter Bridge is a core component that facilitates cross-chain asset transfers. It acts as a bridge protocol, securely moving tokens and data between different blockchain networks. The Orbiter Bridge ensures interoperability, security, and speed for cross-chain transactions.

Orbiter Finance Bridge
Orbiter Finance Bridge specifically refers to the bridge infrastructure within the Orbiter ecosystem that connects various blockchain networks. It supports seamless transfer of assets, such as tokens and stablecoins, enabling users to leverage DeFi opportunities across multiple chains.

Orbiter Bridge Finance
Orbiter Bridge Finance encompasses the entire cross-chain transfer and interoperability infrastructure provided by Orbiter. It integrates with Orbiter Swap and Orbiter Fi to create a unified DeFi experience, allowing users to access liquidity, earn yields, and swap tokens across different blockchain ecosystems efficiently.

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The surprising evolution of the weirdest animals on Earth, according to a new study
объективное знание
The story of two of the strangest animals on the planet just got a little stranger, thanks to clues revealed by a lone fossil specimen that scientists now say represents a long-extinct ancestor. The new research could upend what’s known of the evolution of the most primitive mammals alive today.

Found in Australia and New Guinea, the platypus and echidna are called monotremes, and they are unique for being the only mammals that lay eggs.
The amphibious platypus has a bill and webbed feet, like a duck, and a beaver-esque tail. The small creature spends much of its time hunting for food in the water. The echidna — fittingly known as the spiny anteater — lives entirely on land, is covered in pointy quills and has rear feet that face backward, kicking up dirt as the animal burrows into the ground. Neither animal has teeth, and though they both produce milk, they secrete it through their skin for babies (often called puggles) to lap at, because they lack nipples.

“There’s plenty of weirdness to go around on these little things,” said Dr. Guillermo W. Rougier, a professor in the department of anatomical sciences and neurobiology at Kentucky’s University of Louisville who studies early mammalian evolution.

“They are one of the defining groups of mammals,” Rougier said. “The typical mammal from the time of dinosaurs probably shared a lot more biology with a monotreme than with a horse, a dog, a cat or ourselves.” Therefore, he said, monotremes provide a window into the origins of mammals on Earth.

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Manuala metode
Manuala FUE procedura tiek izmantots tikai roku darbs, graftus atdalot ar instrumentu, kura diametrs ir 0.9-1.00 mm. Parstadits tiek viss grafts, kas parasti satur 1-4 matu folikulus, nedalot atseviski pa 1 graftam, tadejadi iegustot kuplu un dabigu rezultatu.
Uzacu transplantacija
Dr. Ilze Runce veicot griezienus, strada ar mikroskopu, kas dod iespeju iegut matu biezumu, kas maksimali pietuvinats dabigajam un viena procedura iespejams parstadit lidz pat 4000 graftu. Manuala FUE metode tiek izmantota ari uzacu un bardas parstadisana. Procedura norit vieteja anestezija un ir klientam komfortabla – tas laika pacients visu laiku atrodas sedus stavokli proceduru kresla un var lietot datoru, telefonu, planseti, lasit gramatu vai skatities TV.

Dr. Ilze Runce ir manualas metodes aizsaceja Latvija, ir atseviski apguvusi so metodi Kazahstana 1 gada garuma pie nozares profesionaliem un ieviesusi to Latvija kops 2013.gada, kopuma ir veikusi jau vairak ka 1000 manualas FUE proceduras.

Aprakstu sagatavoja Dr. Ilze Runce

Manualas metodes cena ieklauts viss nepieciesamais:
nepieciesamais graftu daudzums;
visi pecoperacijas medikamenti;
sprejs;
sampuns;
cepurite;
pusdienas proceduras diena;
parsiesana nakamaja diena (pec nepieciesamibas).
MATU IZKRISANA

Pastiprinata matu izkrisana jeb alopecija skar gan viriesus, gan sievietes. Ta var but saistita ar novecosanos, genetiku, hroniskam slimibam, ieilgusu stresu, ka ari specifiskam imunas sistemas reakcijam. Mati klust plani vai pilniba izkrit. Ari retas un apdegumi zonas, kur agrak ir bijis apmatojums, (piemeram, uzacis) var radit estetisku diskomfortu.

Matu parstadisanas procedura ir efektivs risinajums gadijumos, kad medikamenti un arstnieciskas proceduras nepalidz!

An astronaut’s awe-inspiring views from life in space
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Longtime NASA astronaut Don Pettit, who has ventured to space four times, returned to Earth on Saturday night from the International Space Station. Pettit, who turned 70 on Sunday, landed at 9:20 p.m. ET in a Soyuz spacecraft with Roscosmos cosmonauts Alexey Ovchinin and Ivan Vagner near Zhezkazgan, Kazakhstan, after a seven-month stay aboard the orbiting laboratory.

The scientist invented the first object patented in space — called the Capillary Beverage, Space Cup or Zero-G cup, which makes it easier to drink beverages in the absence of gravity, and he is also a celebrated astrophotographer known for capturing unique views of the cosmos.
“One of the things I like to do with my astrophotography is to have a composition and a perspective that’s different than an Earth-centric one, typically showing an Earth horizon with the atmosphere on edge, the limb, and then some kind of astronomy, astrophotography, in relationship to that,” Pettit said from the space station during an April 3 interview with astrophysicist Neil deGrasse Tyson.
“Earth is amazingly beautiful when your feet are firmly planted on the ground, and it’s beautiful from space,” Pettit said. “And it’s hard to say what is more beautiful. I think it’s because space is a unique opportunity we seek to focus on the beauty of being in orbit. If we had people living their whole life in orbit, when they come down to Earth, they would probably think that was the most beautiful perspective they’d ever seen.”

Pettit takes his photos from the cupola on the space station, a favorite of crew members due to its seven windows that overlook Earth.

Here are some of his most unforgettable views of what it’s like to live in space that he captured over the past seven months.

Lunar clockwork
What scientists know for certain is that they need to get precision timekeeping instruments to the moon.
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Exactly who pays for lunar clocks, which type of clocks will go, and where they’ll be positioned are all questions that remain up in the air, Gramling said.

“We have to work all of this out,” she said. “I don’t think we know yet. I think it will be an amalgamation of several different things.”
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Atomic clocks, Gramling noted, are great for long-term stability, and crystal oscillators have an advantage for short-term stability.
“You never trust one clock,” Gramling added. “And you never trust two clocks.”

Clocks of various types could be placed inside satellites that orbit the moon or perhaps at the precise locations on the lunar surface that astronauts will one day visit.

As for price, an atomic clock worthy of space travel could cost around a few million dollars, according Gramling, with crystal oscillators coming in substantially cheaper.

But, Patla said, you get what you pay for.

“The very cheap oscillators may be off by milliseconds or even 10s of milliseconds,” he added. “And that is important because for navigation purposes — we need to have the clocks synchronized to 10s of nanoseconds.”

A network of clocks on the moon could work in concert to inform the new lunar time scale, just as atomic clocks do for UTC on Earth.

(There will not, Gramling added, be different time zones on the moon. “There have been conversations about creating different zones, with the answer: ‘No,’” she said. “But that could change in the future.”)

‘A whole different mindset’
Accurate clockwork is one matter. But how future astronauts living and working on the lunar surface will experience time is a different question entirely.
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On Earth, our sense of one day is governed by the fact that the planet completes one rotation every 24 hours, giving most locations a consistent cycle of daylight and darkened nights. On the moon, however, the equator receives roughly 14 days of sunlight followed by 14 days of darkness.

“It’s just a very, very different concept” on the moon, Betts said. “And (NASA is) talking about landing astronauts in the very interesting south polar region (of the moon), where you have permanently lit and permanently shadowed areas. So, that’s a whole other set of confusion.”
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“It’ll be challenging” for those astronauts, Betts added. “It’s so different than Earth, and it’s just a whole different mindset.”

That will be true no matter what time is displayed on the astronauts’ watches.

Still, precision timekeeping matters — not just for the sake of scientifically understanding the passage of time on the moon but also for setting up all the infrastructure necessary to carry out missions.

The beauty of creating a time scale from scratch, Gramling said, is that scientists can take everything they have learned about timekeeping on Earth and apply it to a new system on the moon.

And if scientists can get it right on the moon, she added, they can get it right later down the road if NASA fulfills its goal of sending astronauts deeper into the solar system.

“We are very much looking at executing this on the moon, learning what we can learn,” Gramling said, “so that we are prepared to do the same thing on Mars or other future bodies.”

Lunar clockwork
What scientists know for certain is that they need to get precision timekeeping instruments to the moon.
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Exactly who pays for lunar clocks, which type of clocks will go, and where they’ll be positioned are all questions that remain up in the air, Gramling said.

“We have to work all of this out,” she said. “I don’t think we know yet. I think it will be an amalgamation of several different things.”
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Atomic clocks, Gramling noted, are great for long-term stability, and crystal oscillators have an advantage for short-term stability.
“You never trust one clock,” Gramling added. “And you never trust two clocks.”

Clocks of various types could be placed inside satellites that orbit the moon or perhaps at the precise locations on the lunar surface that astronauts will one day visit.

As for price, an atomic clock worthy of space travel could cost around a few million dollars, according Gramling, with crystal oscillators coming in substantially cheaper.

But, Patla said, you get what you pay for.

“The very cheap oscillators may be off by milliseconds or even 10s of milliseconds,” he added. “And that is important because for navigation purposes — we need to have the clocks synchronized to 10s of nanoseconds.”

A network of clocks on the moon could work in concert to inform the new lunar time scale, just as atomic clocks do for UTC on Earth.

(There will not, Gramling added, be different time zones on the moon. “There have been conversations about creating different zones, with the answer: ‘No,’” she said. “But that could change in the future.”)

Space, time: The continual question
If time moves differently on the peaks of mountains than the shores of the ocean, you can imagine that things get even more bizarre the farther away from Earth you travel.
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To add more complication: Time also passes slower the faster a person or spacecraft is moving, according to Einstein’s theory of special relativity.

Astronauts on the International Space Station, for example, are lucky, said Dr. Bijunath Patla, a theoretical physicist with the US National Institute of Standards and Technology, in a phone interview. Though the space station orbits about 200 miles (322 kilometers) above Earth’s surface, it also travels at high speeds — looping the planet 16 times per day — so the effects of relativity somewhat cancel each other out, Patla said. For that reason, astronauts on the orbiting laboratory can easily use Earth time to stay on schedule.
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For other missions — it’s not so simple.

Fortunately, scientists already have decades of experience contending with the complexities.

Spacecraft, for example, are equipped with their own clocks called oscillators, Gramling said.

“They maintain their own time,” Gramling said. “And most of our operations for spacecraft — even spacecraft that are all the way out at Pluto, or the Kuiper Belt, like New Horizons — (rely on) ground stations that are back on Earth. So everything they’re doing has to correlate with UTC.”
But those spacecraft also rely on their own kept time, Gramling said. Vehicles exploring deep into the solar system, for example, have to know — based on their own time scale — when they are approaching a planet in case the spacecraft needs to use that planetary body for navigational purposes, she added.

For 50 years, scientists have also been able to observe atomic clocks that are tucked aboard GPS satellites, which orbit Earth about 12,550 miles (20,200 kilometers) away — or about one-nineteenth the distance between our planet and the moon.

Studying those clocks has given scientists a great starting point to begin extrapolating further as they set out to establish a new time scale for the moon, Patla said.

“We can easily compare (GPS) clocks to clocks on the ground,” Patla said, adding that scientists have found a way to gently slow GPS clocks down, making them tick more in-line with Earth-bound clocks. “Obviously, it’s not as easy as it sounds, but it’s easier than making a mess.”

Lunar clockwork
What scientists know for certain is that they need to get precision timekeeping instruments to the moon.
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Exactly who pays for lunar clocks, which type of clocks will go, and where they’ll be positioned are all questions that remain up in the air, Gramling said.

“We have to work all of this out,” she said. “I don’t think we know yet. I think it will be an amalgamation of several different things.”
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Atomic clocks, Gramling noted, are great for long-term stability, and crystal oscillators have an advantage for short-term stability.
“You never trust one clock,” Gramling added. “And you never trust two clocks.”

Clocks of various types could be placed inside satellites that orbit the moon or perhaps at the precise locations on the lunar surface that astronauts will one day visit.

As for price, an atomic clock worthy of space travel could cost around a few million dollars, according Gramling, with crystal oscillators coming in substantially cheaper.

But, Patla said, you get what you pay for.

“The very cheap oscillators may be off by milliseconds or even 10s of milliseconds,” he added. “And that is important because for navigation purposes — we need to have the clocks synchronized to 10s of nanoseconds.”

A network of clocks on the moon could work in concert to inform the new lunar time scale, just as atomic clocks do for UTC on Earth.

(There will not, Gramling added, be different time zones on the moon. “There have been conversations about creating different zones, with the answer: ‘No,’” she said. “But that could change in the future.”)