A pencil mark primarily consists of graphite, which is made up of carbon atoms. In a typical pencil mark, there are approximately 10^19 to 10^20 carbon atoms in a single mark, depending on its size and thickness. This vast number reflects the microscopic scale of atoms and the relatively small quantity of graphite used in a pencil mark.
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there are many different atoms some are called sex cells bloood cells white blood cells and many more cells...yeah this is a cell's answer not an atom answer muhahahahahha biach you got wasted!
Graphite is pure carbon. A diamond is also pure carbon in a very specific crystal. Yet diamonds do not conduct electricity and graphite does. Graphite can form in plate like arrays of hexagonal crystals and in an amorphous, powdery form.
The element often mistaken as the end of a pencil is graphite. While many people think that the black tip of a pencil is lead, it is actually made of a mixture of graphite and clay. Graphite is a form of carbon that provides the smooth writing ability, while the clay helps to harden the pencil core. Thus, the misconception arises from the historical term "pencil lead."
Atoms are very small.This is because pencil carry many atoms.
Graphite is often mistaken for the end of a pencil because pencils are made with graphite, which is a form of carbon. Many people mistakenly think the core of a pencil is lead, but it is actually graphite.
There are approximately 6 x 10^22 carbon atoms in 8g of pencil lead.
There are 6.02 x 10^23 molecules per mole of any substance: this is 0.6 trillion trillion molecules.A mole of water is only 18 grams. A regular wood pencil weighs about half of that. There will be fewer molecules of wood but more atoms per molecule. But you are still talking a range of hundreds of billions of trillions of atoms (10^22) in an item the size of a pencil.
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there are many different atoms some are called sex cells bloood cells white blood cells and many more cells...yeah this is a cell's answer not an atom answer muhahahahahha biach you got wasted!
To calculate the number of carbon atoms in 2.6g of graphite, first calculate the number of moles of carbon using its molar mass (12.01 g/mol). Then, use Avogadro's number (6.022 x 10^23 atoms/mol) to determine the number of carbon atoms. This calculation will give you the number of carbon atoms in 2.6g of pure carbon as graphite.
Graphite is pure carbon. A diamond is also pure carbon in a very specific crystal. Yet diamonds do not conduct electricity and graphite does. Graphite can form in plate like arrays of hexagonal crystals and in an amorphous, powdery form.
The main element found in pencil lead is graphite. This form of carbon is mixed with clay to create the core of a pencil. Other elements, such as small amounts of wax or additives, may also be used in the production of pencil lead.
Carbon is used in pencils. The pencil lead is made of graphite, which is a material made of many 'sheets' of carbon joined together.
Many people call it lead but it is actually graphite.
The molar mass of carbon is approximately 12 g/mol. This means that in 5.85 g of graphite, there are 5.85/12 moles of carbon atoms. Therefore, there are 5.85/12 * 6.022 x 10^23 carbon atoms in a 5.85 g piece of graphite.
There are billions of carbon atoms in a pencil lead. Each carbon atom consists of protons, neutrons, and electrons, making up the total number of particles in a pencil lead even greater.