42.3 Celsius
There is no optimum between 00C and 1000C.
This really depends what the temerature you want is. For lower temperatures you can heat in a thermostatically controlled container of oil. For highter temperatures you will need a thermoostatically controlled furnace. This wil easily give you good control up to at least 1000C
No-one did! A guy called Daniel Fahrenheit proposed a temperature scale where one of the reference points was the temperature of the boiling point of water which he arbitrarilly set at 212 degrees or more precisly 2120F This scale is now only used in the US the rest of us have switched to Celsius (often called centigrade) where the boiling point of water is 1000C
The temperature of boiling water is just 1000C whereas the temperature of fire ranges from 5000C to 15000C. As the sensation of heat depends on relative temperature so fire is hotter than boiling water.
It depends on the acid. In most cases acids are used in the form of an aqueous solution, i.e. dissolved in water. In that case the solution is a liquid. However, in pure forms different acids can be in any of the three states. Hydrogen chloride, the pure form of hydrochloric acid, is a gas. Pure sulfuric acid is a liquid. Pure oxalic acid is a solid.
1,000 degrees Celsius = 1,832 degrees Fahrenheit
There is no optimum between 00C and 1000C.
00C. It's part of the definition of of the Celsius scale. the other part being that water boils at 1000C.
Well, If the surface area is small, say 1 m2 . And the temperature is 1000C You lose only 2% of your heat. But if the surface area is big/largel, say 10 m2 . And the temperature is still 1000C You lose only 20% of your heat. So the bigger your surface area the bigger your heat loss is. Warning: It is a example, the calculation is not correct!
Yes
copper is smelted using a temperature of 800 -1000c it is then put into 3-6 containers then it cools down in the 3 containers
This is different in different reactor designs:boiling water reactors operate at the boiling temperature of water (100C)pressurized water reactors operate at over 300Cseveral types of very high temperature gas cooled reactors can operate at temperatures up to 1000C
bcoz of space in the calorimeter....
Only using special burners with 1000C temperature. Glycerine used as fuel with normal burners at lower temperatures generates highly toxic acroleine emissions.
download the new downloaded content. the one for 1000c i think. have fun!!
PBr3, PBr5 decompose above 1000C to give PBr3
The roman numeral for 1100 is: MC. This translates to:M = 1000C = 100MC = 1100