static electricity
When electrons move from one object to another and then come to rest, they produce static electricity. This can result in the build-up of an electrical charge on the objects' surfaces, which can generate attractions or repulsions between them.
The charge on a charged object is maintained by the movement of electrons within the object. If electrons are added or removed from the object, its charge will change. Charging methods such as friction, conduction, or induction can alter the charge on an object.
Balanced forces produce zero acceleration, meaning an object at rest will remain at rest, and an object in motion will continue moving at a constant velocity.
Motion of an object can be produced by applying a force to it. According to Newton's laws of motion, an object will remain at rest or in uniform motion unless acted upon by an external force. By applying a force in the direction you want the object to move, you can produce its motion.
Static electricity involves electric charges that remain unmoving on an object. These charges build up when two objects rub against each other, transferring electrons and creating an imbalance of positive and negative charges.
When electrons move from one object to another and then come to rest, they produce static electricity. This can result in the build-up of an electrical charge on the objects' surfaces, which can generate attractions or repulsions between them.
The charge on a charged object is maintained by the movement of electrons within the object. If electrons are added or removed from the object, its charge will change. Charging methods such as friction, conduction, or induction can alter the charge on an object.
Balanced forces produce zero acceleration, meaning an object at rest will remain at rest, and an object in motion will continue moving at a constant velocity.
Although a substance may contain millions of negatively charged electrons, it also contains millions of positively charged protons. The object will be neutral when the number of protons equals the number of electrons.
Aristotle who first to analyze and observe the causes of motion. He observe that when an object was push or pull the object will continue to move and whenthe an object was not push or pull the object will remain at rest. this observation was consider but when Galileo experimented that when an object was at rest if will remain atrest and when an object was move it will continue moved from one place to another. khimche :)
Motion of an object can be produced by applying a force to it. According to Newton's laws of motion, an object will remain at rest or in uniform motion unless acted upon by an external force. By applying a force in the direction you want the object to move, you can produce its motion.
Static electricity involves electric charges that remain unmoving on an object. These charges build up when two objects rub against each other, transferring electrons and creating an imbalance of positive and negative charges.
Remain in the positively charged body.
A force, that may come from a collision with ... Another object.
The tendency for an object in motion to remain in motion is actually described by Newton's first law of motion, which states that an object will continue moving at a constant velocity unless acted upon by an external force. Orbital speed specifically refers to the velocity required for an object to stay in orbit around another object due to the balance between the gravitational force and the centrifugal force.
It stays the same, the object must have lost electrons and while they do have mass it is so small that is generally ignored. An electron has a mass roughly 1/2000th of a proton or neutron, and those aren't heavy to begin with!The most acceptable answer should be that the mass stays the same.
An object will remain still if the forces acting on it are balanced, meaning that the forces do not cause any change in its motion. If the net force on an object is zero, it will not accelerate and therefore remain at rest.