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Liquid state because boiling point is 216Celsius , Melting point is -10degree Celsius
The formula to calculate the change in temperature (ΔT) when specific heat (C) and heat (Q) are given is ΔT = Q / (m * C), where m represents the mass of the substance. If the initial and final temperatures are required, then the formula can be rearranged as Tfinal = Tinitial + ΔT.
the temperature measured on the laboratory thermometer is from-10degree Celsius to 110 degree Celsius
Liquid state because boiling point is 216Celsius , Melting point is -10degree Celsius
stx crux10 10degree head with stx ripple shaft
What countries would I find at the coordinates given 10degree south 50degree
The formula to calculate the change in temperature (ΔT) when specific heat (C) and heat (Q) are given is ΔT = Q / (m * C), where m represents the mass of the substance. If the initial and final temperatures are required, then the formula can be rearranged as Tfinal = Tinitial + ΔT.
longitudional extend of kerala :76degree 24minute E-77degree 25minute W latitudinal extend of kerala: 10degree N-12degree 42minute N
almost every head fits on every shaft. Excluding the kyle harrison sticks and head which have a tilt and only work on the stx cranckshaft 10degree shaft
That's a big question. Do you mean how much cooling is required, or how much energy is required to cool something? Required cooling involves calculating the heat leaks into the cooled space. This could involve solar loading, the heat leak through a wall or a window. Maybe it's the structural supports that hold up a detector at cryogenic temperatures. Typically you know something about how the amount of the heat leak varies with the temperature at its two sides. House insulation and windows have an R value that tells you how much heat leaks through as a function of the internal and external temperatures. Once you know the load, you can calculate the amount of energy required to provide that much cooling. An air conditioner sold in the United States will have an "Energy Efficiency Rating" that tells how many BTUs/hr of cooling are produced per watt of electrical power input. So if you need 5000 BTU of cooling and your A.C. has an EER of 10, you will need 5000/10 = 500 W of electrical power to run it. In a country that uses a sensible unit system the cooling requirement and the electrical power are both measured in Watts, so an A.C. will simply have a coefficient of performance (COP) which is the Watts of cooling per Watt of electrical power. COPs for typical air conditioners is about 3, so in the above example you would have calculated that you needed 1450 W of cooling, and with a COP of 3 you would need 480 W.