A 150-watt light bulb uses energy at the rate of 150 watts, when it's turned on.
Should be 50 lumens per watt, so 7500 lumens.
Yes it can provided the volotage is right, because for a bulb the volt-amps are equal to the watts - if it is an incandesent bulb. For a fluoresecent bulb the power-factor must be better than 100/150 or 0.67.
One parsec is equivalent to 3.3 light years. 150 parsecs = 150 x 3.3 = 495 light years
69 or 104 times in a minute.
Its the height and length. its about equal to 128mm by 128mm
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A 150 watt halogen bulb will give off somewhere around 2000 lumens. These lights may give off up to about 2400 lumens.
around 21,000 average 100 watt bulb is around 1400 lumens. That's 14 lumens per watt. 14X1,500 = 21,000
9000- 11000
hps light averages 125 lumens, therefore, a 150 watt hps light is about 18,750 lumens.
On average, LED lamps have an efficacy of around 80-100 lumens per watt. This means they produce 80-100 lumens of light output for every watt of electricity consumed. Advanced LED lamps can have even higher efficacy, up to 150 lumens per watt.
2300lm Comment I think you mean lumens, not lumen's. No that answer is wrong Watts (energy usage) / Lumens (light output) 25 is equal to 200 35 is equal to 325 40 is equal to 450 60 is equal to 800 75 is equal to 1100 100 is equal to 1600 125 is equal to 2000 150 is equal to 2600 36 watts would be about 350 Lumens
The voltage needs to be known to give an answer to this question.
About 150 watts.
LEDs don't use any power, or they are at least 10 times more efficient than any other kind of lighting. LEDs are about 15 percent more efficient than fluorescent lights, and six times as efficient as incandescent - and rapidly improving. LEDs are on an impressive development path. In just the past year, we have seen commercially available dies move from 65 lumens per watt to over 90 lumens per watt. Within the next five to seven years, there seems to be a clear path past 150 lumens per watt and a reasonable expectation of approaching 200 lumens per watt. represents a tremendous opportunity to provide a real alternative to fluorescent lighting. Note that these LED efficiencies then need to be combined with power conversion circuitry efficiencies, optical efficiencies, etc., to come up with a total LED lighting system efficacy. For example, a product using a 90 lumens per watt LED may have a total system efficiency of 60 lumens per watt when everything is accounted for. Unfortunately, it is common today to find an LED product advertising well over 100 lumens per watt, leading to buyer disappointment.
There is a good article I will link too. They are efficient for some things but not others but they will likely be the lighting of the future. One has been mentioned by its manufacturer to achieve 150 lumens to watt at a reduced power level. http://members.misty.com/don/lede.html
Every second a 150 Watt bulb converts 150 Joules from electricity into heat and light. The number of Watts tells you how many Joules pass per second.
No, you can not use a 150 watt high pressure sodium bulb with a 70 watt ballast.