Electrons carry a negative charge and are responsible for the electrical properties of atoms and molecules. When a body gains or loses electrons, it becomes positively or negatively charged. This transfer of electrons is what causes the body to become charged.
The body needs glucose and oxygen to carry out cellular respiration. Glucose is the primary source of energy, and oxygen is needed as the final electron acceptor in the electron transport chain to produce ATP.
That sketchy description could be applied to a planet, a satellite, a moon, an asteroid, a comet, a meteoroid, or even an electron.
water is made during the electron transport chain (etc) phase.
To discuss ways of charging a body, you can explore methods such as friction, conduction, and induction. Friction involves rubbing two materials together to transfer electrons, while conduction involves direct contact between a charged object and a neutral one. Induction charges a body without direct contact by bringing a charged object close, causing a redistribution of charges. Each method has its applications and can be demonstrated through simple experiments or theoretical explanations.
The electron transport chain is the aerobic step of cellular respiration. Oxygen is the last electron acceptor in the electron transport chain. The last step in aerobic respiration is the bonding of 2 electrons, 2 protons, and oxygen to form water. The water leaves the electron transport chain, freeing up a place for another oxygen molecule so that the electron transport chain does not stop.
No, the mass of a body is not affected by charging it. Charging a body simply redistributes the charges on its surface and does not change its mass.
The mass of a body is not affected by charging. Charging a body involves adding or removing electrons, which are very light particles compared to the mass of the body itself. Therefore, the mass of the body remains essentially unchanged during the charging process.
The two methods of charging a body are charging by friction (rubbing two objects together to transfer electrons) and charging by induction (bringing a charged object near a neutral object, causing a separation of charges).
No
No
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.
Electric charge comes in multiples of an electron , 1.6E-19 Coulombs.
During induction, if the ground connection was removed first before the charging body, the electrons on the electroscope will be stranded. This causes a negative charge on the object.
I believe you mean charging by contact as in electrons hitting the atom- then I suppose it would be a negative charge, because an electron is negative and it would make the charge of the opposing atom negative.
There is less than one faradays of charge in a single electron. It takes thousands of electron to charge anything and only either protons or neutrons are capable of charging a single electron.
During induction, if the ground connection was removed first before the charging body, the electrons on the electroscope will be stranded. This causes a negative charge on the object.