Albert Einstein’s equation for the conservation of matter and energy (E = mc2) predicts that if the mass of uranium to be split in a nuclear fission reaction were to double, then: the amount of energy released would be decreased to one-fourth the amount of energy released would be decreased to one-half the amount of energy released would be increased four-fold the amount of energy released would be increased two-fold the amount of energy released would remain the same
Chemistry of Life
The field in which the chemical properties, structure, location, and biological processes in the body are studied is the chemistry of life. The term chemistry of life incorporates chemistry in the life processes; the study of life processes comes under biology.
Covalent and Ionic Bonds
Atoms of different elements except noble gases do not have a complete octet, so they combine with other atoms to form a chemical bond. When two atoms of the same and different elements mutually share two electrons, one by one, to form a bond between them, the bond is called a covalent bond. On the other hand, an electrovalent or ionic bond is formed when a metal atom transfers one or more electrons to a non-metal atom.
Carbon Bonding
It is basically an association between two C that is formed by sharing a pair of electrons among them. Commonly, this is a single or sigma (σ) bond. Sometimes double or triple or pi (Π) bonds can also be formed. These are formed when orbitals of two C atoms get hybridized.
Alcohols, Phenols and Ethers
Alcohols are hydroxyl (-OH) group or moiety containing organic aliphatic molecule. They are produced when a hydrogen atom of an aliphatic compound is substituted with hydroxyl moiety. The general expression of alcohol is R-OH, where the R is an aliphatic group. Their general formula is CnH2n+2O, where n = number of carbon atoms. If n = 1, then CH4O = CH3OH or methanol, n = 2, C2H6O = C2H5OH ethanol.
- Albert Einstein’s equation for the conservation of matter and energy (E = mc2) predicts that if the mass of uranium to be split in a nuclear fission reaction were to double, then:
- the amount of energy released would be decreased to one-fourth
- the amount of energy released would be decreased to one-half
- the amount of energy released would be increased four-fold
- the amount of energy released would be increased two-fold
- the amount of energy released would remain the same
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