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Watts = Volts x Amps for an incandescant bulb. So Amps = 600/120.
If the light is operating at 110 volts, and P = I x E, then I = 300/110, or 2.5 amps.
If both bulbs fit into the same socket I would presume this to be fine.
Compact fluorescent bulbs are widely used because they use one fifth of the electric power to provide the same amount of light as an incandescent bulb. Incandescent: 12 lumens per watt Halogen: 15 lumens per watt CFL: 50-60 lumens per watt LED: 100 lumens per watt High-pressure sodium: 200 lumens per watt
The sizing of the generator is dependant on the size of the electric motor driving the mixer.
No, you can not use a 150 watt high pressure sodium bulb with a 70 watt ballast.
Watts = Volts x Amps for an incandescant bulb. So Amps = 600/120.
If the light is operating at 110 volts, and P = I x E, then I = 300/110, or 2.5 amps.
If both bulbs fit into the same socket I would presume this to be fine.
Compact fluorescent bulbs are widely used because they use one fifth of the electric power to provide the same amount of light as an incandescent bulb. Incandescent: 12 lumens per watt Halogen: 15 lumens per watt CFL: 50-60 lumens per watt LED: 100 lumens per watt High-pressure sodium: 200 lumens per watt
The sizing of the generator is dependant on the size of the electric motor driving the mixer.
v times i watt
In my experience (northeast USA) most HIGH PRESSURE SODIUM street lights are 150 watt or 250 watt For example in NYC 250 watts is used at intersections and 150 watt everywhere else
100mph
James watt
Watt is a unit of power. watt hours is a unit of energy. (Note x watts times y hours is what you pay for on your electric bill.)
6000