Electrons are negatively charged. Opposites attract, so they are attracted to positively charged bodies.
A positively charge body is deficient in electrons (electrons are negatively charge, so a lack of them results in something being positively charged).
due to friction temperature increases and the valence electrons get enough energy to transfer from one body to the other. The body which loose electron get positive charge due to deficiency of electron and the body which gains electron become negatively charged due to excess of electrons.
Every organism, including humans, is made up of atoms which are made of protons, neutrons, and electrons. When an atom becomes positively or negatively charged, the flow of electrons between the two is actually electricity.
The charged object may induce a separation of charges in the neutral object.The charged object may induce a separation of charges in the neutral object.The charged object may induce a separation of charges in the neutral object.The charged object may induce a separation of charges in the neutral object.
You get shocked touching a door knob because of the friction between the carpet and the soles of your shoes. By walking across a rug or carpet, your body starts to become negatively charged because of the electrons picked up from the carpet. When you go to touch the door knob, your negative charge repels the electrons on the door knob, making the knob positively charged (the door knob becomes positive because of the exchange of electrons to the hand). Since positives attract negatives, your hand has a shock between the door knob because of the exchange of electrons. The only reason why there is an exchange of electrons is because the door knob is being neutrilized just like your body is releasing that small amount of electrons to make it have no charge.
When it's ions have more elecrons than protons
A positively charge body is deficient in electrons (electrons are negatively charge, so a lack of them results in something being positively charged).
It gains electrons. The only charged particles which can freely move from one object to another are electrons. Electrons have negative charge. So adding electrons gives a negative charge, and removing electrons gives the object a positive charge.
A positively charge body is deficient in electrons (electrons are negatively charge, so a lack of them results in something being positively charged). It also probably means it has a healthy diet and a daily health routine
due to friction temperature increases and the valence electrons get enough energy to transfer from one body to the other. The body which loose electron get positive charge due to deficiency of electron and the body which gains electron become negatively charged due to excess of electrons.
The body is negatively charged by friction means that when a body is moving, due to frictional force the body is gaining negative charges from the contact side/or from the surface on which it is being dragged.
The mass will increase because negative charge comes from the gain of electrons. Each electron weighs such a small amount that the change in mass would probably be undetectable since it takes about 1028 electrons to equal 1 gram.
To charge it positively placed a negatively charge body near it. The positive charge of the sphere is attracted near to the surface close to the negatively charge body. To make it completely positive just earth it (by touching it). This process is known as induction. To charge a body negatively is similar to the aforementioned method.
yes your body is both negatively charged and positively charged on the extracellular surface
Charging is due to transfer of electrons from one body to another body. Electrons have mass, therefore, mass increases in the case of negatively charged body and decreases in the case of positively charged body.
Charging is due to transfer of electrons from one body to another body. Electrons have mass, therefore, mass increases in the case of negatively charged body and decreases in the case of positively charged body.
Remain in the positively charged body.