As long as the lamp holder will take the larger wattage lamp and the current of the circuit is sized to take the larger current then yes, the lamps should be interchangeable.
energy consume by the bulb = P*time =100*6 wh =.6 kwhour=0.6 unit energy consume by the bulb = P*time =100*6 wh =.6 kwhour=0.6 unit
If the two bulbs use the same technology the 100 w bulb is 10/6 times brighter than the 60 w. Incandescent bulbs give about 10-12 lumens per watt Halgogen gives about 15-18 lumens per watt CFL (low-energy) gives about 50 lumens per watt.
A little bit less than a 25 watt incandescent bulb - the the table below:Bulb brightnessA 100 watt Bulb is rated at approximately 1700 lumensA 60 watt incandescent bulb is rated at approximately 800 lumensA 40 watt bulb is rated at approximately 400 lumensA 25 watt bulb is rated at approximately 180 lumensA 4 watt night light bulb is rated at approximately 20 lumens
Incandescents produce 10 lumens per watt, halogens about 13 lumens per watt, fluorescents and LEDs 40-50 lumens per watt. Lumens measure the brightness, watts measure the speed at which electrical energy is used.
Mega stands for 10^6 (10 raised to power 6 or 1 followed by 6 zeroes). Giga stands for 10^9 (10 raised to power 9 or 1 followed by 9 zeroes). Tera stands for 10^12 (10 raised to power 12 or 1 followed by 12 zeroes). In effect: 1 Tera Watt will have 10^6 (1 followed by 6 zeroes) Mega Watts or 1 Tera Watt = 1000000 Mega Watt or 1 Tera Watt = 1 Mega Mega Watt - Neeraj Sharma
No, a 6 volt battery is not strong enough to power a 40 watt bulb, which typically requires around 12 volts to operate efficiently. You would need a higher voltage power source to light up a 40 watt bulb.
energy consume by the bulb = P*time =100*6 wh =.6 kwhour=0.6 unit energy consume by the bulb = P*time =100*6 wh =.6 kwhour=0.6 unit
If the two bulbs use the same technology the 100 w bulb is 10/6 times brighter than the 60 w. Incandescent bulbs give about 10-12 lumens per watt Halgogen gives about 15-18 lumens per watt CFL (low-energy) gives about 50 lumens per watt.
6 watt bulb for mini lamp
A little bit less than a 25 watt incandescent bulb - the the table below:Bulb brightnessA 100 watt Bulb is rated at approximately 1700 lumensA 60 watt incandescent bulb is rated at approximately 800 lumensA 40 watt bulb is rated at approximately 400 lumensA 25 watt bulb is rated at approximately 180 lumensA 4 watt night light bulb is rated at approximately 20 lumens
Incandescents produce 10 lumens per watt, halogens about 13 lumens per watt, fluorescents and LEDs 40-50 lumens per watt. Lumens measure the brightness, watts measure the speed at which electrical energy is used.
Mega stands for 10^6 (10 raised to power 6 or 1 followed by 6 zeroes). Giga stands for 10^9 (10 raised to power 9 or 1 followed by 9 zeroes). Tera stands for 10^12 (10 raised to power 12 or 1 followed by 12 zeroes). In effect: 1 Tera Watt will have 10^6 (1 followed by 6 zeroes) Mega Watts or 1 Tera Watt = 1000000 Mega Watt or 1 Tera Watt = 1 Mega Mega Watt - Neeraj Sharma
-9900
It's a unit of power. MW- Mega Watt and 1MW= 10^6 Watt (or 1000 kW).
Look at it and you will figure it out.
1 kilo Watt = 10^3 (1000) Watts 1 mega Watt = 10^6 (1,000,000) Watts 1000 kilo Watt = 1000*1000 Watts = 1,000,000 Watts = 1 Mega Watt Therefore...1000 kW = 1 MW Hope that helps! ^_^
If the bulb is a 40 watt, 120v bulb, you would need 20 6 volt batteries wired in series, or 80 (!) 1.5 volt batteries. 1.5 volt batteries are AAA, AA, C, D, etc. Since this solution is rather extravagant, try finding a light bulb made for an RV. These typically run off of 12 volts, and you can get a single 12 volt battery, or 2 6 volt batteries, to run this bulb.