To transmitted the increase
ERMM THE RESISTANCE INCREASES ) when longer
If all environmental conditions remain constant then the resistance will not change appreciably with applied voltage, but the current will increase. An increase in current will raise the temperature of the conductor which will increase the resistance somewhat.
An increase in current will only affect resistance if it causes the temperature of the conductor to change. For pure metallic conductors, and increase in temperature will cause an increase in resistance.
yes
It is a Photosystems Excitation Pressure and Development of Resistance to Photoinhibition. The investigation revolves solely around comparing resistance increase.
ERMM THE RESISTANCE INCREASES ) when longer
If we increase the length, the resistance will increase and vice versa.
That's what "resistance" is all about: reducing the current for a given voltage. In fact, you can DEFINE resistance as voltage divided by current.
To increase (current) flow in a circuit you increase voltage (or decrease resistance). Ohm's Law: Current = Voltage divided by resistance
Current is proportionally inverse to resistance and when the voltage is fixed, lowering resistance will increase the current
If all environmental conditions remain constant then the resistance will not change appreciably with applied voltage, but the current will increase. An increase in current will raise the temperature of the conductor which will increase the resistance somewhat.
The region where resistance decreases with increase in temperature.
Increase resistance
Peripheral resistance can be increased by an increase in blood volume and the constricting of blood vessels.
An increase in current will only affect resistance if it causes the temperature of the conductor to change. For pure metallic conductors, and increase in temperature will cause an increase in resistance.
No. A thicker conductor will lower resistance.
The resistance will increase