36 is to 12 as 18 is to 24.
NO! Do not hook it up this way!Two batteries in series will equal 24 volts and 17 ampsVoltage in series add and current stays the sameSeries circuit: Etotal = E1 + E2 Itotal = I1 = I2Two batteries in parallel will equal 12 volts and 34 ampsVoltage in parallel stays the same and current addsParallel circuit: Etotal = E1 = E2 Itotal = I1 + I2To get the 24 volts and 34 amps you would need a combination of the two:Two batteries in series that are parallel with two more batteries that are in series with each otherBy putting 24 volts in parallel with a 12 volt battery you would have a difference of potential of 12 volts. Same as connecting a wire from the positive to the negative terminal (12 volts difference), you would see sparks and maybe an explosion.
The Sunbeam Bug Zapper SB982 typically operates on a voltage of 120V and uses around 0.1 to 0.2 amps. In terms of power, this translates to approximately 12 to 24 watts. Always refer to the specific product manual for exact specifications, as they can vary by model.
50 VA means about 50 watts. Transformers usually use VA instead of watts because a transformer has very little wasted power, and watts measure power. A 50 va transformer that is 120v. on the primary side will use about .41 amps at 120 volts. On the secondary side, (if it's 24 volts) it will support about 2.08 amps.
If there's nothing else between the ends of the resistor and the power supply, then the voltage across the resistor is 24 volts, and the current through it is 2 amperes.
3000 / 240 = Amps. You de-rate a breaker by 20 % for continuous load like an oven. You could get by with a 20 Amp breaker and 12 AWG wire. However, I would recommend 30 Amps and 10 AWG for an oven for the long run.
Ohm's law: Volts = Amps * Ohms, or Amps = Volts / Ohms 12 volts / 0.5 ohms = 24 amps
Only if you step the 12 - 24 volts down to 5 volts somehow.
Volts * Amps = Watts 12 Volt * 2 amp = 24 Watts
To determine the amperage of a 400-watt solar panel, you can use the formula: Amps = Watts / Volts. Assuming the panel operates at a nominal voltage of 24 volts, it would produce approximately 16.67 amps (400 watts / 24 volts). If the panel operates at 12 volts, it would produce about 33.33 amps (400 watts / 12 volts). The actual output can vary based on factors like sunlight intensity and panel efficiency.
For a resistive load Watts = Volta * Amps. Therefore, you have 1/4 amp or 250 Milliamps (250ma)
In a Direct Current circuit power is equal to the product of current times voltage or in another form of the same equation, power divided by voltage equals current in amps. 280 watts divided by 24 volts equals 11.6666666 amps.
"0" zero unless there is current flow. Watts = Amps x Volts.
A three wire home distribution service rated at 100 amps has a wattage capacity of;From L1 to L2 at 240 volts x 100 amps = 24000 watts or 24 kilowatts. From L1 to neutral at 120 volts x 100 amps = 12000 watts or 12 kilowatts. From L2 to neutral at 120 volts x 100 amps = 12000 watts or 12 kilowatts.
V = (I) x (R) = 2 x 12 = 24 volts
You would need to connect the two 12 volt batteries in series. That will give you 24 volts and the amps of one of the batteries. Voltage doubles and amps stay the same.
To find the resistance that produces a current of 8 amps when connected to 24 volts, you can use Ohm's Law, which states that ( V = I \times R ). Rearranging the formula to solve for resistance gives ( R = \frac{V}{I} ). Substituting the values, ( R = \frac{24 \text{ volts}}{8 \text{ amps}} = 3 \text{ ohms} ). Thus, a resistance of 3 ohms will produce a current of 8 amps when connected to 24 volts.
Power = E times I = (24 x 2) = 48 watts