These differences are due to a different arrangement of atoms in allotropes.
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The number of neutrons is different; the differences between physical properties exists but are extremely small.
An electron that is in the highest energy level of an atom and determines the atom's chemical properties is called a valence electron. Valence electrons are involved in the interactions between atoms, such as forming bonds with other atoms in chemical reactions.
- Weak intermolecular forces -Low density
These elements are called "metalloids" : boron, silicon, germanium, arsenic, antimony, tellurium, and polonium. They form a diagonal line on the periodic table running down and to the right. Some allotropes of other elements display the properties of metalloids.
Sounds differ based on their frequency, amplitude, and duration. Frequency determines pitch (high or low), amplitude determines volume (loud or soft), and duration determines how long a sound lasts. Other properties like timbre (tone quality) and intensity also contribute to the unique characteristics of different sounds.
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ya dad
Motion does not determine time differences. They are determined by time zones. The difference between FL and CA is 3 hours.
The number of neutrons is different; the differences between physical properties exists but are extremely small.
they both rust and are good conducter of electricity
Copper is a metal, while carbon is a non-metal. Copper is a good conductor of electricity, whereas carbon can exist in various allotropes with different properties, such as graphite and diamond.
Compounds differ because of differences in attractions between their molecules.
Compounds differ because of differences in attractions between their molecules.
The differences between chemical properties are not significant.
Low temperature Strong intermolecular forces martielo
Yes, the differences in properties between diamond and graphite can be explained by the existence of isotopes. Isotopes are atoms of the same element with different numbers of neutrons, which can affect the atomic structure and bonding in materials. In the case of diamond and graphite, the arrangement of carbon atoms and the bonding configuration due to isotopes lead to their distinct properties.