Yes that would work. It's all about the ratio. As long as the rated voltage is not exceeded, as there will be a limit to what the insulation can stand, before breaking down. Lower voltages than rated will be safe.
The GCF of 24 and 120 is 24, and the LCM of 24 and 120 is 120.
LCM(30, 24, 20) = 120
Least common multiple of 24 and 30 is 120.
The numbers could be 4 and 24 or 8 and 12.
The GCF of 72 and 120 is 24.
The recommended voltage input for a 24 VAC transformer is typically around 120 volts.
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.
Use a voltage devider or a transformer.
The resistance of the secondary of a transformer depends on the wire gauge and length of wire used in the winding. Typically, the resistance of the secondary winding of a 24 volt transformer can range from a few ohms to tens of ohms. It is best to measure the resistance using a multimeter for an accurate value.
The LCM (Least Common Multiple) of 24 and 120 is the smallest number that is a multiple of both 24 and 120, which is 120. The GCF (Greatest Common Factor) of 24 and 120 is the largest number that divides both 24 and 120 without leaving a remainder, which is 24.
The GCF of 24 and 120 is 24. The LCM of 24 and 120 is 120. Therefore the difference between the GCF and LCM = 120 - 24 = 96
24% of 120 = 120*24/100 = 28.8
LCM for 10 and 24 is 120.
LCM(24, 4, 120) = 120.
120-24 = 96
It is 24 + 120 = ...
The answer would be 120. 24 X 5 = 120