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.
No
The mass is basically NOT affected by gravity. The weight IS affected, and it is equal to mass x gravity.
Charging by friction and charging by induction (works only for conductors)
Mass is not affected by gravity. Weight is the result of the force of gravity acting on mass.
acceleration, due to a force the moving body is affected by. SUM[Forces] = mass * acceleration --> change in speed.
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.
No
Weight is affected by the gravitational pull of a large body of mass while mass is affected by how many particles you have in your body. Weight is determined by the equation Fg=mg while mass is determined from a mass balance.
Weight is affected by the gravitational pull of a large body of mass while mass is affected by how many particles you have in your body. Weight is determined by the equation Fg=mg while mass is determined from a mass balance.
The mass is basically NOT affected by gravity. The weight IS affected, and it is equal to mass x gravity.
A body of rock affected by tensile stress will likely undergo stretching. This happens during the asymmetric deformation of a rock mass.
No. Mass is the amount of material in your body. Your weight is determined by gravity, and will increase as gravity increases, but the actual mass of your body is not affected by gravity.
Charging by friction and charging by induction (works only for conductors)
Your mass would be unaffected, it is simply to do with the atoms in your body. Your weight would be reduced to zero as that is simply how much your body is affected by gravity.
Mass is not affected by gravity. Weight is the result of the force of gravity acting on mass.