Ohms Law.
Resistance doesn't "use" either. Resistance is the division of voltage by current. It can be though of as a measure of how hard it is to push electrons through a substance.
A: 18volts / 3ohms = 6amps
You have to push R to pick up the watermelon and through it to a button then if you want to through it you push R.
A contact force is a push or a pull that is directly touching an object A long range force is a push or a pull that acts through a distance
Yes they do. If they are really strong, they can push through. Most of the time though, they avoid rocks.
Ohm's Law.
Your body resistance is high- hard to push electrons through.
voltage
'E' = electromotive force between 2 points, Volts 'I' = current from one of the points to the other, Amperes 'R' = resistance between the two points, Ohms Ohm's Law: E = I R I = E / R R = E / I
The resistance of a current is a measure of how difficult it is to push the electrons along.AnswerThere is no such thing as the 'resistance of a current'. Resistance is a characteristic of the material through which a current flows, not of the current itself.
Resistance doesn't "use" either. Resistance is the division of voltage by current. It can be though of as a measure of how hard it is to push electrons through a substance.
Yes resistance would be a push force.
A: 18volts / 3ohms = 6amps
Consider resistance to be like effort needed to push water through a pipe. If you have a longer pipe, you need to put in more effort to push the water through, as it has further to go. Also skinnier pipes, and pipes with more obstructions also require more effort, so have a higher resistance.
Yes resistance would be a push force.
Voltage provides the "pressure" to push current "flow" through the circuit resistance.
U = RxI so 11x20=220 volts