That all depends in the resistance of the filament in the bulb there is not enough info in the question
110 volts is what comes out of an average wall socket in America. A 100-watt bulb would be powered by 110 volts. You need to be more specific in your question to get a good answer. Small can't be measured.
about 2.00 dollars. it depends on the size and shape and the number of volts you get!
The bulb need the correct voltage to operate. Your bulb would light if it is a 1.5 volt light. So the voltage of the supply and the light must be matched. Too little voltage won't light the light, too much will light it too much and blow it up.
It depends in which country you are located. Through out the world that are different electrical voltages. The electrical manufactures knowing this and wanting to sell world wide make bulb to run on that countries electrical system. The two main voltages that bulbs operate on are; in 60 Hertz countries 120 volts and 50 Hertz countries 230 volts.
No, a 220 volts AC fan cannot run directly from a 12 volts battery. The fan requires a much higher voltage to operate efficiently. You would need a power inverter to convert the 12 volts from the battery to 220 volts AC to power the fan.
110 volts is what comes out of an average wall socket in America. A 100-watt bulb would be powered by 110 volts. You need to be more specific in your question to get a good answer. Small can't be measured.
about 2.00 dollars. it depends on the size and shape and the number of volts you get!
The light-bulb will probably burn out if you connect it directly. Other than that, you CAN'T calculate the time duration based on the data provided. The duration depends on how much energy the light-bulb uses, and how much energy the batter is able to store. Voltage is NOT a unit of energy.
The bulb need the correct voltage to operate. Your bulb would light if it is a 1.5 volt light. So the voltage of the supply and the light must be matched. Too little voltage won't light the light, too much will light it too much and blow it up.
It depends in which country you are located. Through out the world that are different electrical voltages. The electrical manufactures knowing this and wanting to sell world wide make bulb to run on that countries electrical system. The two main voltages that bulbs operate on are; in 60 Hertz countries 120 volts and 50 Hertz countries 230 volts.
No, a 220 volts AC fan cannot run directly from a 12 volts battery. The fan requires a much higher voltage to operate efficiently. You would need a power inverter to convert the 12 volts from the battery to 220 volts AC to power the fan.
The bulb is marked with the power (watts) and the voltage. Divide the watts by the volts and you have the amps.
The 194 bulb is ~3.8 watts, at 14 volts they draw 0.271 amps.
The formula you are looking for is I = W/E. Amps = Watts/Volts.
The formula you are looking for is I = W/E. Amps = Watts/Volts.
The 200 watts on an amplifer would refer to output if it were turned up all the way. This does not tell you how much electricity the amplifier would use. There is some power lost from heat, but we don't know just how much, from the information above.
Because if you touch it, you may get dirt or oils from your skin on the bulb. Since halogen bulbs operate at a much higher temperature than conventional bulbs, the contaminants may cause the bulb to break. If you do touch the bulb, clean it with an alcohol swab before installing it.