If were somewhere high in the atmosphere but still in contact with the gravitational pull of the Earth, and our distance multiplied by 3, then the Earth's gravitational pull would lessen.
Explanation:
everything can be found in the picture
Answer:
.b.Be faster, less power consuming than silicon and much thinner
Explanation:
Graphene has a <em>very high electrical conductivity</em> due to its pi orbitals overlap that enhance the carbon to carbon bonds. This means that a nanoelectronic devise that uses graphene will be faster and will consume less powe and it will be thinner because graphenes have a <em>size of 0.345Nm.</em>
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I think the correct answers from the choices listed above are options A, E, and F. The conditions on <span>meteorites in space that are similar to those that likely prevailed on Earth early in its history would be </span>no oxygen, presence of inorganic molecules and <span>high levels of ultraviolet radiation. Hope this answers the question.</span>
The statemengt is <em>false</em>. Electromgnetic waves do not require a medium to transfer energy. They can transfer energy through vacuum (empty space with nothing in it). If electrimagnetic waves needed a medium to move through from place to place, then we could never see the sun, and also it would get very cold here.