n the following section, at least 2 to up to 5 answers may be correct. Fusion and fission processes can often be viewed as the “reverse” process with respect to each other. Examples are: a. light frequency transformation. b. beta - decay is the inverse process of a proton flipping into a neutron during hydrogen fusion c. helium-capture reactions that form heavy elements inside massive stars are the reverse of α-decay. d. fission of a very heavy element into two lighter elements is the inverse of fusion of two medium-mass elements into heavy elements. e. conservation of photon charge.

n the following section, at least 2 to up to 5 answers may be correct. Fusion and fission processes can often be viewed as the “reverse” process with respect to each other. Examples are: a. light frequency transformation. b. beta - decay is the inverse process of a proton flipping into a neutron during hydrogen fusion c. helium-capture reactions that form heavy elements inside massive stars are the reverse of α-decay. d. fission of a very heavy element into two lighter elements is the inverse of fusion of two medium-mass elements into heavy elements. e. conservation of photon charge.

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Question

In the following section, at least 2 to up to 5 answers may be correct.

Fusion and fission processes can often be viewed as the “reverse” process with respect to each other. Examples are:

a. light frequency transformation.

b. beta - decay is the inverse process of a proton flipping into a neutron during hydrogen fusion

c. helium-capture reactions that form heavy elements inside massive stars are the reverse of α-decay.

d. fission of a very heavy element into two lighter elements is the inverse of fusion of two medium-mass elements into heavy elements.

e. conservation of photon charge.

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