Any electrical device "raises your electric bill", but only when it is activated. (only when you turn on the switch)
A 100 watt bulb, left on for 10 hours uses 1 KW-hr.
A 10 watt bulb left on for 100 hours uses 1 KW-hr.
It becomes relatively simple to understand that if the power company charges you a set price (for example $0.15/KW-Hr) the 10 watt bulb would raise your electric bill much more slowly than would the 100 watt bulb.
An electric bulb rated at 40 watts does 40 joules of work in one second. This is because the watt is defined as one joule per second. Therefore, a 40-watt bulb converts 40 joules of electrical energy into light and heat every second it is on.
Approximately 5 kilowatt hours. Check your electric bill to see what you are charged per kilowatt hour.
No. A 70 Watt metal halide bulb can not be replaced with a 150 Watt halide 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
Incandescent bulbs give about 10 lumens of light per watt of electric power Halogens give about 13 lumens per watt CFLs give about 50 lumens per watt So it depends on the type of bulb.
An electric bulb rated at 40 watts does 40 joules of work in one second. This is because the watt is defined as one joule per second. Therefore, a 40-watt bulb converts 40 joules of electrical energy into light and heat every second it is on.
A 0 Watt bulb does not consume electric power so the cost is zero.
Approximately 5 kilowatt hours. Check your electric bill to see what you are charged per kilowatt hour.
No. A 70 Watt metal halide bulb can not be replaced with a 150 Watt halide bulb.
NO. The amount of electric energy consumed varies depending on how high or low the setting is. Low setting will use less electric than high setting just as a 100 watt bulb uses less electric than a 200 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
Incandescent bulbs give about 10 lumens of light per watt of electric power Halogens give about 13 lumens per watt CFLs give about 50 lumens per watt So it depends on the type of bulb.
Yes, the halogen bulb would provide about 30% more brightness (lumens) for the same electric power rating. So 70 watt halogen is about equal to 90-100 watt incandescent.
A 13-15 watt compact fluorescent bulb (CFL) or a 9-11 watt LED bulb is roughly equivalent to a 60 watt incandescent bulb in terms of light output.
The reading "100W-220V" on an electric bulb indicates that it is a 100-watt bulb designed to be used with a voltage of 220 volts. This information helps ensure that the bulb is used with the correct power supply to operate efficiently and safely.
The main difference between a 100-watt and a 75-watt light bulb is the amount of light output they produce. A 100-watt bulb will be brighter and consume more energy compared to a 75-watt bulb. The 100-watt bulb may also generate more heat than the 75-watt bulb.
The brightness level of a 5 watt LED bulb is equivalent to a 40 watt incandescent bulb.