If they are in different physical form they are ALLOTROPES. If they are in different atomic form they are ISOTOPES. e.g. Allotropes [ Graphite, diamond and buckyballs* buckminster Fullerene) are allotropes of carbon. They appear different because the arrangment of the atomis is different. Isotopes Carbon 12 , Carbon-13, Carbon-14 are isotopes of carbon , because they have a different number of neutrons in the nucleus.
No, krypton is a noble gas and does not exist in allotropes like some other elements. It is a colorless, odorless gas that is typically inert and does not readily form compounds with other elements.
These are elements from the group 17 - halogens; a strong electrostatic attraction exist beween atoms.
Water is a compound composed of hydrogen and oxygen atoms, while hydrocarbons are organic compounds made up of hydrogen and carbon atoms. Both water and hydrocarbons are not allotropes as they consist of different elements and structures. Allotropes are different forms of an element that exist in the same physical state.
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If they are in different physical form they are ALLOTROPES. If they are in different atomic form they are ISOTOPES. e.g. Allotropes [ Graphite, diamond and buckyballs* buckminster Fullerene) are allotropes of carbon. They appear different because the arrangment of the atomis is different. Isotopes Carbon 12 , Carbon-13, Carbon-14 are isotopes of carbon , because they have a different number of neutrons in the nucleus.
No, krypton is a noble gas and does not exist in allotropes like some other elements. It is a colorless, odorless gas that is typically inert and does not readily form compounds with other elements.
These are elements from the group 17 - halogens; a strong electrostatic attraction exist beween atoms.
"Allotrope" refers to different forms of the same element that have distinct chemical and physical properties. For example, carbon has various allotropes such as graphite and diamond. These allotropes have different structures and properties, although they are composed of the same element.
Water is a compound composed of hydrogen and oxygen atoms, while hydrocarbons are organic compounds made up of hydrogen and carbon atoms. Both water and hydrocarbons are not allotropes as they consist of different elements and structures. Allotropes are different forms of an element that exist in the same physical state.
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Allotropy is phenomenon only for chemical elements.
The group of elements with only 5 elements are the halogens in group 17 of the periodic table. These elements are fluorine, chlorine, bromine, iodine, and astatine.
An element can exist in different forms called allotropes, which have the same chemical composition but different structures. For example, carbon can exist as graphite, diamond, or fullerene. These different forms of elements can have distinct physical and chemical properties.
Only if the element forms allotropes, such as diamond and graphite, which are both allotropes of carbon but can be separated by density.
Allotropy is the property of some chemical elements to exist in two or more different forms, known as allotropes, in the same physical state. These allotropes have different crystal structures and properties but the same chemical composition. Carbon is a well-known example of an element that exhibits allotropy, with forms such as graphite and diamond.
Allotropes