The energy production and nuclear reactors.
The atomic bombs used in World War II. APEX -_- ik bc I got it incorrect from the other person who answered
Donβt listen to any of the this is the correct answer
-the hydrogen bomb
-energy production in the sun
A P E X renaa
which of the following deal with fission. The answers are critical mass and nuclear reactors
A. the atomic bombs used in World War II (Apex)
D. the energy production in nuclear reactors (Apex)
It's A and C. The sun and most other stars are fusion reaction engines, and hydrogen bomb (perhaps more properly a fusion nuclear weapon) apply nuclear fusion to do what they do.
fission and fusion
fusion of gametes
Nuclear processes that can release large amounts of energy.
DT fusion has the lowest temperature/pressure of ignition of all fusion processes, and so is the easiest to start.
Answer this question… inertial confinement fusion
Inertial confinement fusion
It's A and C. The sun and most other stars are fusion reaction engines, and hydrogen bomb (perhaps more properly a fusion nuclear weapon) apply nuclear fusion to do what they do.
fission and fusion
Inertial confident fusion
fusion of gametes
Fusion power is the power generated by the nuclear fusion processes. Fusion power is a primary area of researc in plasma physics. For example, the sun is a natural fusion reactor.
Fusion reactions are not limitless. The fusion process can exhaust the supply of fuel and cause fusion to stop. Additionally, there are fusion processes that are not exothermic, but are endothermic and require energy to be put in to sustain them. Without the requisite input energy, fusion ceases.
Karyogamy is the fusion of the nuclei in the cell, while Plasmogamy is the fusion of cytoplasm in the cell, but not the nuclei.
Nuclear processes that can release large amounts of energy.
Initially it is hydrogen. When that is spent, stars move to fusion of helium. There are also other fusion processes which take place: which process depends on the stars' mass.
Initially it is hydrogen. When that is spent, stars move to fusion of helium. There are also other fusion processes which take place: which process depends on the stars' mass.