well umm idk stop trying to cheat on homework 6th grades ,read for gads sake
That depends on the exact situation. If there is an interaction with other charges, this can cause the object to acceleration (basically, change its velocity), and the greater the object's charge, the faster its velocity will change.
The formula to find velocity is: V = D. (VELOCITY equals distance divided by time) T
I think you mean the "rate of CHANGE" of velocity. (If you don't, then the question is meaningless.) The rate of change of velocity is called " acceleration ".
The magnetic field produced by this charge is B=( qz/r^2)v/c.
I guess that would depend on what you want to calculate (the charge? the velocity? the average energy of the charges?), and what information is given.
That depends on the exact situation. If there is an interaction with other charges, this can cause the object to acceleration (basically, change its velocity), and the greater the object's charge, the faster its velocity will change.
The formula to find velocity is: V = D. (VELOCITY equals distance divided by time) T
I think you mean the "rate of CHANGE" of velocity. (If you don't, then the question is meaningless.) The rate of change of velocity is called " acceleration ".
Because charge particles produces magnetic field which causes electromagnetic force that's why moving charges move with the velocity equal to the velocity of light.
You calculate the charge in velocity, not in distance.
the flowing in the conductor is related as given by the relation... I=Vena v=drift velocity of electron e=charge on electron n=concentration of electron in the current carrying conductor . a=area
In direct current the charge carries always flow in the same direction, while in alternating current they change direction repeatedly, meaning overall there is no net direction.
The magnetic field produced by this charge is B=( qz/r^2)v/c.
That description is not quite accurate. The muzzle velocity of the shot definitely does depend on the size of the powder charge. I believe, however, that the difference is not the 'force' of the burning charge, but rather the time during which the force is applied to it before the bullet exits the barrel.
I guess that would depend on what you want to calculate (the charge? the velocity? the average energy of the charges?), and what information is given.
Variations in projectile weight, velocity, powder charge
velocity = velocity