NO. Two 60W lamps will use 120W - which is more than 100W !!
If the question is what wattage compact fluorescent (CFL) lamp has a similar light output to an incandescent lamp of a given wattage, the ratio is usually about 4. A 60W incandescent can be replaced by an 13-15 W CFL lamp. A 60W CFL lamp can replace a 300W incandescent lamp.
A table lamp a tv, hi
Power is measured in Watts, power (Watts) = E (volts) x I (current - amps) current is determined by the internal resistance (R) of the lightbulb, the lower the resistance the more current will flow. 120v x 0.5a = 60W 120V x 0.83a = 100W the 100W lightbulb will draw more current We also have Ohm's law: E(volts) = I (amps) x R (ohms) Household voltage stays the same at 120v we have for a 100w lamp: 120v = I x R R = 120v/0.83 amps R = 144.6 ohms for a 60w lamp: 120v = I x R R = 120v/0.5 amps R = 240 ohms The higher watt lamp has lower resistance.
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NO. Two 60W lamps will use 120W - which is more than 100W !!
If the question is what wattage compact fluorescent (CFL) lamp has a similar light output to an incandescent lamp of a given wattage, the ratio is usually about 4. A 60W incandescent can be replaced by an 13-15 W CFL lamp. A 60W CFL lamp can replace a 300W incandescent lamp.
Fuse # 7 - 20 amp maxi-fuse - for trailer park lamp and trailer stop lamp
Head lamp.Head lamp.
P=VI so I=P/V I= 60/230 I=0.261 A
The park lamp fuse on a Ford Escape is located in the main fuse panel, near the hood release. It prevents the lamp from drawing too much current and will break under excessive load.
The horn fuse is the same as the stop lamp fuse
what colour fuse is rear fog lamp on vauxhall astra 2002
The difference between a pole lamp and a normal lamp is very miniscule. A pole lamp stands on a pole and the lights are strung up like they are on a tree.
In series, a 30W incandescent lamp dissipates twice as much power as a 60W unit designed for the same supply voltage. While it's difficult to estimate how much of that power will be in the form of visible light and how much as heat, we're guessing that their comparative visual brightnesses will track the total power dissipation of each lamp, so the 30W will appear brighter than the 60W. In parallel, or in separate, independent, unconnected circuits on separate power supplies, the 60W lamp is brighter than the 30W unit designed for the same supply voltage. Note: Plugging two bulbs into any two separate outlets in the same house normally connects them in parallel.
A lamp doesn't produce electrical energy; it utilises it. The power-rating of the lamp will tell you the rate at which that lamp uses expends energy at its rated voltage. For example, a 60-W lamp will expend energy at 60 joules per second.
The 40-W lamp will be the brighter, because it has a greater resistance that the 60-W lamp and, therefore, will experience a greater voltage drop across its terminals. The closer the voltage drop is to the lamp's rated voltage, the brighter it will be.