If it is 1000 watts then it produces a 1000 watts. A watt is 1 joule/sec.
The amount of heat produced in a reaction is not fixed. It depends upon the total amount of energy change that has taken place in the reaction altogether. Not only this, all reactions do not produce heat. In some cases we have to supply energy from external sources to get the reaction started.
Incandescent light bulbs give off the most heat compared to other types of light bulbs because they produce light as a byproduct of heat. This is due to the way they function by passing an electric current through a filament, which heats up and emits light.
The amount of heat emitted from a PC can vary based on factors such as the components used, level of usage, and cooling system efficiency. On average, a typical desktop computer can emit around 200-400 watts of heat during operation, while a high-end gaming PC can produce even more heat. Proper ventilation and cooling solutions are essential to manage and dissipate this heat effectively.
That is not a straightforward answer because heat isn't produced by body weight but as a waste product of metabolism. The more metabolically active a tissue is, the more heat it will generate. So like muscle tissue will generate more heat than adipose (fat) tissue.
IT depends on the voltage that is at the powerlines. Ibelieve the common residential powerline voltage is 2160v and your house is 120/240v
..the questions does not say wether the 30kVA transformer is 3 phase transformer or single phase transformer..but it is implying that a single phase welding load at 16A per phase is to be connect to it, it is assumed then that the transformer is 3 phase transformer..we assume load is rated 240V.. ..though not much details is given about the transformer voltage specs. but if is rated 3 phase 415/240V, the approx full load current per phase is given by 30KVAx1.3912=41.736A.. ..but if the transformer was rated single phase 240V say, the approx full load current FLC=30000/240V gives 125ampers.. ..if you further devide the FLC by the intended load current.. ..Recommended no of welders per for a 3 phase 415V transformer and assuming single welding sets =41.736/16=2.6..so you can connect max two welding sets to this transformer per phase,..max 6 weld sets can connect at an approx load factor of 76%.. ..for the single phase transformer, FLC/16=125/16, gives 7.8 but is also recommended not to connect more than 6 welding sets to such transformer for the same reasons..
Cold-blooded animals do not produce much body heat. Most do not produce any at all.
700c-1500c
enough.
To cool and to insulate the transformer. Transformer oil has a higher specific heat capacity than air, so it is more efficient at removing energy through heat transfer, and limiting the windiings' temperature rise. Transformer oil has a much greater dielectric strength than air, which means that components at different potentials can be placed closer together, so the overall volume of the transformer can be made smaller, giving it a smaller 'footprint'.
When light bulbs are turned on, they produce heat as a byproduct of generating light. The amount of heat produced varies depending on the type of bulb, but incandescent bulbs tend to produce more heat than LED bulbs.
On average, a human produces about 100 watts of heat in a day.
64400lumens
The two 5kW heating elements will produce a total of 10kW of heat when energized simultaneously.
A 75 watt bulb produces about 75 watts of heat.
The human body produces an average of about 100 watts of heat.