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1 km = 100000 cm 1.7 km = 170000 cm
Depends upon the wattage rating. A 24 watt bulb will create far less heat energy than a 100 watt bulb.
Try laboratory-suppliers' catalogues and compare prices.
Create incisions in the wax. Then heat it up slightly so the wax becomes soft enough that it can be pull off in pieces. But, be sure not to use too much heat so as not to catch the rug on fire.
It regulates the amount of gas- or flow of the gas. As you open the valve the gas pours out faster. Even though it is at the same pressure as you are putting into the burner much less is coming out.
170000
1883.0557 United States Dollars (USD)
274 652 U.S. dollars ==
You can, it would just take much much longer. It turns out that the blue flame is the hottest because it contains more oxygen. The reason being that with more oxygen, it has more energy to create heat. The hottest part of the blue flame is actually right under the middle, this part is called the crown.
It's pretty much the same as a Bunsen burner, so it's used to heat samples in a laboratory. It can reach higher temperatures than a Bunsen, and its structure is slightly different; the base of the flame has a larger radius.
As you specified Science Equipment, a Bunsen Burner would fit the question, as would the much more powerful Fisher burner. Any stove or similar device would also convert chemical energy ( fuel) o heat energy which is obvious.
The nozzle that the burner tubing connects to allows gas to enter into the burner. Also, the nozzle has a lever that allows you to control how much gas will flow into the burner.
because it can overload and then create to much heat and cause a fire
$35.40
There are many ways how electricity can create heat. For example, passing a current through a wire of high resistance (i.e. a resistor) will generate heat, though not much.
Assuming you are Talking in £'s sterling. It must be £1700.00 Stamp duty is 1% on Values between £125001.00 and £250000.00
1 km = 100000 cm 1.7 km = 170000 cm