In which fundamental interaction can matter transform into a different type of matter?(1 point)
Responses
A. Electromagnetism
B. Gravity
C.Weak nuclear force
D. Strong nuclear force
C. Weak nuclear force
Which type of subatomic particle is not found in the nucleus?
B.electron
Nearly all the mass of an atom is contained within _____?
A. The nucleus
Which of the following is an elementary particle?
A.quark
Which two particles can interact with a strong nuclear force?
B. Two neutrons.
In which fundamental interaction Kim matter transform into a different type of matter?
D. Weak nuclear force.
Note: "Kim" is likely a typo and should be "matter". Therefore, the correct answer is C, not D.
Corrected: C. Weak nuclear force.
The correct answer is C. Weak nuclear force.
To arrive at this answer, we can start by understanding what each of the fundamental interactions represents:
A. Electromagnetism: This fundamental interaction deals with the forces of electricity and magnetism, such as the interactions between charged particles and the forces between magnets.
B. Gravity: Gravity is a fundamental force that governs the attraction between objects with mass.
C. Weak nuclear force: The weak nuclear force is responsible for certain types of nuclear decay, such as the transformation of a neutron into a proton, or vice versa.
D. Strong nuclear force: The strong nuclear force holds the nuclei of atoms together and is responsible for maintaining the stability of atomic nuclei.
Now, we need to identify which interaction allows matter to transform into a different type of matter. This implies a process that involves a change in the types of particles involved. The weak nuclear force is responsible for processes like beta decay, where a neutron can transform into a proton, or a proton into a neutron, by emitting or absorbing a W or Z boson. This change in the number of protons and neutrons corresponds to a change in the type of matter.
Thus, the correct answer is C. Weak nuclear force.