The weak nuclear force effects all elementary particles.
There are actually four types: -Electromagnetic Force, which affects all charges (mediated by the Photon). - Strong Force, which affects all hadrons (mediated by the Gluon). - Weak Force, which affects all quarks (mediated by the Boson). - Gravitational force, which affects all masses (mediated by the hypothetical Graviton).
Acceleration = force/mass
what is bed load particle size
Matter, all matter. All objects with mass.
Matter, all matter. All objects with mass.
No, the particle has the following forces f= qvB= - qv.B + qvxB, the first force is a scalar force when the particle is parallel to the field and teh second force is avector force when teh particle is perpendicular to the field. If the particle is not neither parallel or perpendicular to the field, both the scalar and vector forces will be experiencd.
Gravity affects the string by applying a force (dm).(g) on every particle of mass dm. Thereby, it produces a damping effect on the string.
Yes. A single gas particle experiences gravitational force.
If no force acts on a particle, that particle will either be motionless, or will move in a straight line; this follows from Newton's laws of motion. When a particle is moving in a circular path, the direction of its motion is constantly changing, and to change the direction of motion requires force. We know that force equal mass times acceleration, which is the basis of all physics, as originally stated by Newton. So if a mass is being accelerated, then force is being applied. That is an inescapable conclusion. And only acceleration can change the direction in which a particle moves.
Your question makes no sense, so I will tell you what will happen. The two equal and opposing forces will cancel each other out, and the particle will continue traveling at the speed it was when the second force was applied in the same direction that it was already traveling.
Yes. If the net force is not zero, the particle accelerates. Accelerate means the velocity changes,if the velocity changes the kinetic energy of the particle changes.
Acceleration and so a force acting on the particle.