You cannot determine the voltage induced into the secondary winding of a transformer unless you know its turns ratio. In other words, you haven't supplied sufficient information to answer the question.
Yes, although the question is poorly formed. The ratio of the voltage in the primary winding to the voltage in the secondary winding is the same as the ratio of the number of turns in the primary winding to the number of turns in the secondary winding. For example, if the primary had 1200 turns with the secondary having 120 turns, and the primary voltage was 50 volts, then the secondary would be 5 volts. This is a ratio of 10:1.
A transformer primary of 1200 turns with a secondary of 400 turns is a ratio of 3 to 1.
Wattage is unit of power which is the product of Voltage in V and Current in Amps. If you know the current drawn by the appliance with 1200 Watts then you can calculate the Voltage = Power/ Current. For eg. if the current drawn by the appliance is 100A then the voltage is 1200/100 i.e. 12 Volts.
Highly variable, depending on the type. For example a 1N457 is rated for 79 volts, while a 1N4007 is rated for 1200 volts.
Yes, 120 and 110 volts are a nominal figure in the same voltage range. It is brought about by the power company, as they have a responsibility to keep voltages within a certain 10% range. The load will only notice a difference of 1% on the load current. e.g. Wattage load of 1200. Amps = watts/volts. 1200/120V = 10 amps. 1200/110V = 10.9 amps. On a constant resistance as the voltage goes lower, the current goes higher and vice versa as the voltage goes higher, the current goes lower.
Use ohms law on any cal. divide watts into volts equal amps how many time does 120volts go into 1200watts=10amps <<>> 1200 watts is equal to zero amps. To determine the amperage associated with 1200 watts a voltage needs to be stated. I = W/E, Amps = Watts/Volts.
It is not the voltage it is the amperage that kills.
10 Amps. Amps=Watts/Volts
110 V gives 240 T and 1200 V gives X? so X=(1200V*240T)/110 V=2619 Turns
The most common voltage is 600 Volts DC. However, various voltages have been used. Most newly built light rail lines use 750 Volts DC. Some have used 1200 VDC or 1500 VDC. A few have used AC current.
900,000 Volts. That is Nine Hundred Thousand volts.
It's watts divided by volts equals amps. Example: 1200 watts at 120 volts is 10 amps. To get the watts if you know the amps, multiply the amps times the volts. 10 amps at 120 volts is 1200 watts.