maybe you should start by learning to spell volkswagen
Temperature is measured in degrees, voltage is measured in volts. They are different physical concepts.
If the power output remains constant at 305 kW, doubling the voltage from 240V to 480V will halve the current drawn by the system. This change in voltage will not change the power output; it will remain at 305 kW.
It isn't The Sun's temperature is measured at roughly 5,750 degrees Kelvin Lightning carries an electrical charge, and as such isn't measured in degrees, but in volts (can be tens of millions of volts) When lightning strikes something it can raise it's temperature from the discharge of electricity, but lightning itself doesn't not inherently have a temperature
mAh (Milliampere-hours) and volts are two different measurements in electricity. mAh represents the capacity of a battery to store energy, while volts represent the electrical potential difference. There is no direct conversion between mAh and volts as they measure different aspects of the electrical system.
No. 240 Volts was the nominal standard in Australia with a tolerance of +/- 10%, So the voltage could be anywhere between 216 Volts and 264 Volts. The change to 230 volts is part of international harmonisation between countries that use 220 volt standards and 240 volt Standards. The new tolerance levels are +10% and - 6%.
The ohms will usually stay the same unless the Amps are somehow effecting the temperature. The Amps will always change with the volts.
Temperature is measured in degrees, voltage is measured in volts. They are different physical concepts.
Use a full wave bridge rectifier.
13.6 to 14.5 volts with all accessories turned on, depending on temperature.
That is impossible. That are different things.
It is a resistor that changes resistance based on temperature 0 volts is cold 13 volts pins the gauge. The difference between the one wire and the three wire is the three wire is not Dependant on battery voltage. the old ones will read colder at 11 volts than at 13 volts
negative tempareture It depends on the reverse voltage. Up to about 5.6 volts, the zener has a negative temperature coefficient. Beyond 5.6 volts it begins to show a positive temperature coefficient.
The relationship between temperature and the energy levels of particles in a system is that as temperature increases, the energy levels of particles also increase. In the context of electron volts (eV), higher temperatures correspond to higher energy levels in particles, which can be measured in electron volts.
I Can Not answer. It is my question.
If the power output remains constant at 305 kW, doubling the voltage from 240V to 480V will halve the current drawn by the system. This change in voltage will not change the power output; it will remain at 305 kW.
If you have a digital display on your skylark, therer is a button on the top right side of the diaplay. The button is used to change from volts, oil press, rpm, and temp, depending on which you want to see.
It isn't The Sun's temperature is measured at roughly 5,750 degrees Kelvin Lightning carries an electrical charge, and as such isn't measured in degrees, but in volts (can be tens of millions of volts) When lightning strikes something it can raise it's temperature from the discharge of electricity, but lightning itself doesn't not inherently have a temperature