1 volt = 1 joule per coulomb 3 joules x 1 coulomb = 3 volts
Increase in the object's potential energy = (force) x (distance) = (200) x (4) = 800 newton-meters = 800 joulesPower = (800 joules) / (4 seconds) = 200 joules per second = 200 watts
Energy can be represented in other ways too. Ex. Volts, electron volts, calories
Energy can be represented in other ways too. Ex. Volts, electron volts, calories
the amount of work that has been done is 2000 joules!!!!!!!!!!!!!
It had better be in joules. Watts and volts are not units of energy. yes, but how many as in ? joules/sec
Each fission of U235 releases 200 Mev (200 million electron volts) which in terms of Joules is 3.2 x 10-11 Joules
200 joules of any other type of energy can be converted to 200 joules of heat.
It takes 31.5 joules for 12 volts to move 2.5 coulombs. Volts is joules per coulomb. The rest is just algebra, i.e. joules is coulombs times volts, 2.5 times 12 is 31.5.
850 joules = 200 calories. 850 joules = 200 calories.
200 per kilo
200 joules
1 volt = 1 joule per coulomb 3 joules x 1 coulomb = 3 volts
The AED delivers a shock energy, with units of joules (see the related link). There is not a direct conversion from joules to volts. I have read that the AED has the capability of about 1000 volts. For a comparison of some AEDs and their energy output, see the other related link. An AED with child pads delivers less energy per shock; as low as 50 joules whereas some for an adult will deliver 360 joules or 400 joules.
Increase in the object's potential energy = (force) x (distance) = (200) x (4) = 800 newton-meters = 800 joulesPower = (800 joules) / (4 seconds) = 200 joules per second = 200 watts
24 volts (joules per coulomb), alternating current
Each fission of Uranium 235 releases about 200 MEV (million electron volts), which is 3.2 x 10-11 Joules (1 electron volt = 1.6 x 10-19 joules). That does not sound much, but there a lot of fissions per second in a reactor.