An electron is placed near a neutron. Which statement best describes the electrostatic force between them?
a) there's no force between them since one is neutral
b)there's a force of repulsion between them
c)there's a force of attraction between them
Isn't it a) because neutrons are neural in charge?
a is correct. However, in reality, I would love to see an electron placed near a neutron, and meet the person collecting the evidence.
No, the correct answer is c) there is a force of attraction between them. Although neutrons are neutral, electrons are negatively charged. According to Coulomb's law, opposite charges attract each other, so the negatively charged electron and the positively charged protons in the neutron will create an attractive electrostatic force between them.
The correct answer is actually c) there's a force of attraction between them. While it is true that neutrons are neutral in charge, electrons are negatively charged particles. According to Coulomb's Law, opposite charges attract each other. In this case, the negative charge of the electron attracts the positive charge within the neutron.
To determine the correct answer, you can use your knowledge of basic principles of electrostatics such as Coulomb's Law, which states that the electrostatic force between two charged particles is directly proportional to the product of their charges and inversely proportional to the square of the distance between them. In this scenario, the electron has a negative charge, and the neutron has no charge. Since opposite charges attract, the electron will experience a force of attraction towards the neutron.
Therefore, the correct answer is c) there's a force of attraction between them.