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Logitech Mx Anywhere 3 graphite
Logitech MX Anywhere 3 HERE, THERE, EVERYWHERE The MX Anywhere 3 combines ultimate versatility with remarkable performance. This compact mouse is made to go-whether you're in the home office, at the coffee shop, or at the airport THE SCROLL WHEEL - A STEP AHEAD OF THE REST MagSpeed electromagnetic scrolling is precise enough to stop on a pixel and fast enough to scroll 1,000 lines in a second. It's also nearly silent. The wheel's machined steel gives it premium tactility and a dynamic inertia that you feel - but don't hear. TRACKING ANYWHERE, EVEN ON GLASS The MX Anywhere 3's tracking works on virtually any surface, including glass1. So you can work wherever you want: at your desk, in your favorite coffee shop, or even on the couch. FAST CHARGING WHILE YOU WORK The MX Master 3 has up to 70 days of power on a full charge - and a one-minute quick charge gives you three hours of use2. Charging is also possible while in use via an included USB-C charging cable. MODERN DESIGN, HIGH QUALITY MATERIALS The look and feel of the MX Anywhere 3 is now better than ever. Key features of the sleek design include a machined steel scroll wheel and silicone side grips for perfect feel. You can choose from three available colors to best match your notebook and style. WORK FASTER WITH APP-SPECIFIC CUSTOMIZATION The MX Anywhere 3 is fully customizable for virtually any app you use. Plus, work faster with preconfigured app-specific profiles*. in Adobe Photoshop®, Adobe Premiere Pro, Final Cut ProTM, Google ChromeTM, SafariTM and Microsoft Word®, Excel® and PowerPoint®. CROSS-DEVICE AND CROSS-OPERATING SYSTEM Connect up to three devices simultaneously and switch between them with the touch of a button. MX Anywhere 3 works on Windows®, macOS, iPadOS, ChromeOSTM and Linux®3 MULTIPLE COMPUTERS, ONE MX ANYWHERE 3 Control multiple computers seamlessly with your Flow-enabled MX Anywhere 3 by simply moving the mouse pointer to the edge of the screen. Your MX Anywhere 3 follows your every move, even between Windows and macOS operating systems. Transfer text, images and files effortlessly between computers - simply copy on one and paste on the other.
Price: 67.82 £ | Shipping*: 4.21 £
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Can graphite burn?
Yes, graphite can burn. When exposed to high enough temperatures, graphite can undergo combustion and burn. This process involves the graphite reacting with oxygen to produce carbon dioxide. However, graphite has a high resistance to heat and is often used in high-temperature applications such as in the production of crucibles and electrodes.
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What are good graphite pencils?
Good graphite pencils are typically those that are made with high-quality materials, have a wide range of lead hardness options, and provide smooth and consistent performance. Some popular brands known for their quality graphite pencils include Staedtler, Faber-Castell, and Derwent. It is also important to consider personal preferences such as the feel of the pencil in hand, the darkness of the lines it produces, and whether it smudges easily. Ultimately, the best graphite pencil will depend on individual needs and preferences.
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Does graphite follow the octet rule?
Graphite does not follow the octet rule. In graphite, each carbon atom is bonded to only three other carbon atoms, forming a hexagonal lattice structure. This results in each carbon atom having only six electrons in its outer shell instead of the usual eight required by the octet rule.
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Does graphite have a double bond?
Graphite does not have a double bond. Graphite is composed of layers of carbon atoms arranged in a hexagonal lattice structure. Each carbon atom in graphite is bonded to three other carbon atoms through strong covalent bonds, forming a flat sheet structure. These covalent bonds are not double bonds, but rather single bonds.
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Why is graphite black or grey?
Graphite is black or grey because of its unique atomic structure. The carbon atoms in graphite are arranged in layers, with weak bonds between the layers. This allows the layers to easily slide over each other, giving graphite its slippery feel and ability to leave marks on paper. The layers also absorb and scatter light, resulting in the black or grey color that we see.
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How can one produce graphite oneself?
To produce graphite oneself, one can start by obtaining graphite powder or flakes, which can be purchased online or from specialty stores. Next, the graphite powder can be mixed with a binder, such as clay or resin, to form a paste. This paste can then be molded into the desired shape and baked at high temperatures to remove the binder and leave behind pure graphite. Finally, the graphite can be polished to achieve the desired finish.
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Is graphite the same as coal?
No, graphite is not the same as coal. While both graphite and coal are carbon-based materials, they have different properties and uses. Graphite is a crystalline form of carbon with a slippery texture and is used in pencils, lubricants, and as a material for electrodes. Coal, on the other hand, is a combustible sedimentary rock that is used as a source of energy and for industrial processes such as steel production and electricity generation.
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How can one produce diamonds from graphite?
Diamonds can be produced from graphite through a process called high-pressure, high-temperature (HPHT) treatment. In this process, graphite is subjected to extreme pressure and temperature conditions, mimicking the natural conditions under which diamonds are formed in the Earth's mantle. The carbon atoms in the graphite rearrange into a diamond crystal structure, resulting in the transformation of graphite into diamonds. This method is commonly used in industrial settings to produce synthetic diamonds for various applications.
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