If you mean connecting two different voltages in parallel, you would have a "short circuit" where the 196-volt differential is dissipated in any high-resistance point in the circuit, creating a lot of heat for a very short time (as something suffers thermal runaway and catastrophic breakdown). You could get an explosion and fire.
On the other hand, if you have a 24-volt DEVICE and plug it into 220 volts, the result would depend upon what kind of device it is.
For instance, if it's a 120/24-volt step-down transformer and you plug in the 24 volts to 220, you will be running the transformer "backward" and create 1,100 volts at the "output". If the transformer's design does not include adequate insulation for 1,100 volts, you would have dielectric breakdown, and another possible "short circuit" when things melt and conductors touch each other.
For radios 6 volts, for cars 12 volts, for large vehicles 24 volts, for submarines 220/440 volts.
Assuming a resistive load, the continuous current flowing would be 600/220 = 1.36 amps. The resistance of the load is 220/1.36 = 162 ohms. If you have a 200 ampere hour battery that only supplies 24 volts you can't run your 600 watt device that is designed to run at 220 volts. For sake of argument, say your load is an incandescent light bulb designed to work at 24 volts. If you attached the battery it would try and draw 600/24 = 25 amps and the resistance of the load would be about 1 ohm. You need to match the voltage source to the load requirements. CAVEAT - This example assumes that if a 24 volt battery was used that the 600 watt device was made to work for 24 volts. It is not the same load that would be for a 600 watt device at 220 volts. The problem is that the hypothetical question asked does not match reality.
24 volts should engage the contactor and most likely let the 220 volts flow through.
Mine says 2W and 220-240 volts on the bottom, so I assume 2 watts.
The ratio of 24 volts to 3 volts is calculated by dividing 24 by 3, which equals 8. Therefore, the ratio can be expressed as 24:3 or simplified to 8:1. This means that for every 8 parts of 24 volts, there is 1 part of 3 volts.
It blows air at how many volts it was designed for... an automotive unit will be 12 volts, heavy equipment uses 24 volts, a window unit in N. America will run 110 volts, while 220 and 440 volt systems are typically heavier household and industrial units.
36 is to 12 as 18 is to 24.
Glow plug bars typically operate at a voltage of around 12 volts, which is standard for most automotive electrical systems. However, the exact voltage can vary depending on the vehicle and the glow plug design, with some systems using 6 or 24 volts. The glow plugs heat up quickly when energized, aiding in the starting of diesel engines. Always consult the vehicle's specifications for precise information.
General Aviation typically uses 24 volts. Even the Boeing 777 uses 24 volts while the newer 787 is 32 volts.
12 volt standard, 24 volt optional.
"0" zero unless there is current flow. Watts = Amps x Volts.
Connect two 12 volt batteries in series and you will have 24 volts.