If we increase the voltage by adding extra cells or batteries we give the electrical charges more energy and so, the current flowing around the circuit increases.
An increase in energy corresponds to an increase in frequency or a decrease in wavelength.
The radiant energy increases as the frequency increase and the radiant energy decreases as the frequency decreases.
it also increases
As we increase the altitude of the ball the potential energy increases.
If the internal energy of the system increases the temperature will increase.
If current increases, then voltage also has to increase, assuming that resistance stay relatively the same. Power will also increase. Since power is the product of voltage and current, then the power increase would be the square of the voltage or current change.
The energy efficiency increases as the angle increases.
An increase in energy corresponds to an increase in frequency or a decrease in wavelength.
By 'electricity deficiency', presumably, you mean 'energy deficiency'? If so, then a transformer does not provide energy; it merely changes voltage levels. When it increases a voltage, it doesn't increase the amount of energy supplied.
Resistance increases as temperature increases. If Voltage is held constant then according to Ohm's Law Voltage = Current x Resistance then current would decrease as resistance increases.
Power is voltage times current. If you want to maintain constant voltage and yet increase power, then current must increase. Its simple math.
answer is actually voltage
it increases
Energy increases in vaporization
It decreases in relation to lower temperature.
The radiant energy increases as the frequency increase and the radiant energy decreases as the frequency decreases.
it also increases