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similarities -- all are forms of carbon differences -- because of the structures of the bonds of the carbon atoms, they have different properties
Allotropic carbon: Organic carbon graphite diamond All are pure carbon, just of different structural forms. In the case of carbon, lattice structural differences in the graphite and diamond forms.
Pure carbon is encountered in eleven different forms or allotropes. All forms of carbon are solid at room temperature, are relatively resistant to chemical corrosion and they all burn to form CO and CO2 when heated to high temperatures in the presence of oxygen.The difference between these forms can be subtle and in our everyday experience we encounter them mainly in one of three important forms:graphitediamondlamp black
yes because gold is a metal and carbon is a non-metal.
They are forms of carbon.
allotropy is a phenomenon where an element exists in different forms having different physical properties and same chemical properties is known as allotropy.
Different names, different elements, different properties.
similarities -- all are forms of carbon differences -- because of the structures of the bonds of the carbon atoms, they have different properties
No. Carbon monoxide and carbon dioxide are two different substances with different properties.
They can have different types of chemical bonding: Diamond and graphite are among the best examples, because both are forms of pure carbon but have very different properties.
Carbon is an element. Sucrose, a sugar, is a compound ( a combination of elements ). Sucrose is composed of carbon, hydrogen and oxygen. Pure carbon is found in two forms, graphite (pencil lead) and diamond. Carbon and sucrose are very different in properties except for the fact that both can be burned in the presence of oxygen to yield CO2 (and water in the case of sucrose).
Allotropic carbon: Organic carbon graphite diamond All are pure carbon, just of different structural forms. In the case of carbon, lattice structural differences in the graphite and diamond forms.
Pure carbon is encountered in eleven different forms or allotropes. All forms of carbon are solid at room temperature, are relatively resistant to chemical corrosion and they all burn to form CO and CO2 when heated to high temperatures in the presence of oxygen.The difference between these forms can be subtle and in our everyday experience we encounter them mainly in one of three important forms:graphitediamondlamp black
yes because gold is a metal and carbon is a non-metal.
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Allotropes
Allotropes