The mass of an atomic nucleon (proton or neutron) is about ..... times larger than the mass of an electron.
33?
Look at the masses, then compare. Wild guesses waste a lot to time.
To find the answer to this question, we need to compare the mass of an atomic nucleon (proton or neutron) with the mass of an electron. Let's break it down step by step:
1. Look up the mass of an atomic nucleon: The atomic nucleon refers to either a proton or a neutron. The mass of a proton is approximately 1 atomic mass unit (amu). Likewise, the mass of a neutron is also about 1 amu. This is a fundamental value in atomic physics that can be found in various physics textbooks or online resources.
2. Look up the mass of an electron: The mass of an electron is approximately 0.00055 amu. This value can also be found in physics textbooks or online resources.
3. Compare the masses: Now, divide the mass of an atomic nucleon by the mass of an electron.
For a proton:
1 amu / 0.00055 amu ≈ 1818
For a neutron:
1 amu / 0.00055 amu ≈ 1818
So, the mass of an atomic nucleon is approximately 1818 times larger than the mass of an electron.
Therefore, the correct answer to the question is that the mass of an atomic nucleon is about 1818 times larger than the mass of an electron, not 33.