It is easier to move an electron from the outer energy level than from one closer to the nucleus.
A. true
B.false
I think this is true..?
I think you are correct.
Thank you...How about my other question...do you know?
Someone else took care of that one for you, and they are correct.
To determine whether it is easier to move an electron from the outer energy level than from one closer to the nucleus, we need to understand the concept of energy levels and electron configuration.
In an atom, electrons occupy different energy levels or orbitals around the nucleus. These energy levels are typically numbered starting from the innermost level, closest to the nucleus, as level 1, and increasing as we move further away from the nucleus.
According to the quantum mechanical model, electrons closer to the nucleus have lower energy levels, while those further away from the nucleus possess higher energy levels.
Now, coming back to the question, whether it is easier to move an electron from the outer energy level than from one closer to the nucleus.
The answer is: A. True
It is easier to move an electron from the outer energy level than from one closer to the nucleus. This is because electrons in the outermost energy level, known as the valence electrons, are less strongly attracted to the positively charged nucleus. They are also shielded by the inner energy levels, which makes them more loosely bound compared to electrons in the inner energy levels.
So, when external factors such as an applied electric field or chemical reactions provide enough energy to overcome the attractive force of the nucleus, electrons from the outer energy level are more likely to be moved or participate in reactions compared to those in the inner energy levels.
In summary, the statement "It is easier to move an electron from the outer energy level than from one closer to the nucleus" is true based on the concept of electron energy levels and their relative ease of movement.