it doesn't matter how many volts pass through your body, its the amps as little as 0.1 amps can kill a human
To calculate the amperage at 12 volts based on 1.5 amps at 5 volts, you can use the formula P=IV (Power = Current x Voltage). First, find the power at 5 volts (P=1.5A * 5V = 7.5 watts). Then, using P=IV at 12 volts, solve for current (7.5W = I * 12V => I = 0.625A). So, at 12 volts, 1.5 amps at 5 volts translates to approximately 0.625 amps.
Ohms law will tell you watts equals volts times amps: 115 x 5 = 575
5 volts times 2.4 amps equals 12 watts.
a 1.5 kVa source of electrical power has the capacity to supply 100 volts at 15 amps, 300 volts at 5 amps, or 1000 volts at 1.5 amps.
It depends on how many Amps (current) are applied to the voltage. Watt = Volts x Amps. e.g. 12 volts @ 5 amps = 60 watts
Only if you step the 12 - 24 volts down to 5 volts somehow.
2 watts is a unit of power that measures how much energy is being used per second. It is a small amount of power commonly found in small electronic devices like LED light bulbs or smartphone chargers.
It depends on how many Amps (current) are applied to the voltage. Watt = Volts x Amps. e.g. 12 volts @ 5 amps = 60 watts
1 watt = 1 amp * 1 volt So.... In a house: 5 amps * 115 volts = 575 watts In a car: 5 amps * 12 volts = 60 watts
To calculate the current in the AC circuit, we can use the formula P = V * I, where P is power (60 watts), V is voltage (120 volts), and I is current. Rearranging the formula to solve for current I, we get I = P / V. Plugging in the values, I = 60 watts / 120 volts = 0.5 amps. Therefore, the current flowing through the circuit is 0.5 amps.
The capacity of a 1.5kVA inverter is 1.5 kilovolt-amperes, which is equivalent to 1500 volt-amperes. When connected to a 24-volt battery, this setup can provide approximately 62.5 amps of power (1500 VA / 24 V = 62.5 A) for a certain duration depending on the battery capacity and load demand.