Momentum, impulse, and collisions - wbm
... The last equation is only true for elastic collisions. It is a special case, not the general case. For all collisions, momentum is conserved, but kinetic energy is only conserved for elastic collisions. Do not assume that a collision is elastic unless you are told that it is. ...
... The last equation is only true for elastic collisions. It is a special case, not the general case. For all collisions, momentum is conserved, but kinetic energy is only conserved for elastic collisions. Do not assume that a collision is elastic unless you are told that it is. ...
CLASSICAL MODEL OF A CHARGED PARTICLE WITH ANGULAR
... On the basis of equations proposed by the author in a previous paper [i] it is shown that by compensating the electrostatic repulsive field by the field of virtual vector mesons it is possible to construct a stable classical model of a charged particle having mechanical angular momentum and a magnet ...
... On the basis of equations proposed by the author in a previous paper [i] it is shown that by compensating the electrostatic repulsive field by the field of virtual vector mesons it is possible to construct a stable classical model of a charged particle having mechanical angular momentum and a magnet ...
Let There Be Light
... Which one of the following statements concerning electromagnetic waves is false? A) Electromagnetic waves are longitudinal waves. B) Electromagnetic waves transfer energy through space. C) The existence of electromagnetic waves was predicted by Maxwell. D) Electromagnetic waves can propagate throug ...
... Which one of the following statements concerning electromagnetic waves is false? A) Electromagnetic waves are longitudinal waves. B) Electromagnetic waves transfer energy through space. C) The existence of electromagnetic waves was predicted by Maxwell. D) Electromagnetic waves can propagate throug ...
Electric Potential in Uniform Electric Fields +
... In a uniform electric field we cannot use our previous formula: This formula is only valid for describing the strength of non-uniform fields (point charges only!!!) To find an equation for uniform fields, we will once again draw a parallel with gravitational potential energy. Consider a mass sitting ...
... In a uniform electric field we cannot use our previous formula: This formula is only valid for describing the strength of non-uniform fields (point charges only!!!) To find an equation for uniform fields, we will once again draw a parallel with gravitational potential energy. Consider a mass sitting ...