Q = m * c * ΔT Where: Q = total heat required m = mass of water (in grams) c = specific heat capacity of water (4.18 J/g°C) ΔT = change in temperature (final temperature - initial temperature)
Kilowatts is a unit of energy rate, while the temperature required to raise a specific volume of water by a specific amount of degrees is a unit of energy, not energy rate. The question cannot, therefore, be answered as stated. Please restate the question.
The temperature required for nuclear fusion to occur is around 100 million degrees Celsius.
-40 degrees Fahrenheit is equal to -40 degrees Celsius. This is the point where the two temperature scales intersect and have the same numerical value.
Xenon freezes at a temperature of -111.9 degrees Celsius or -169.4 degrees Fahrenheit.
72 degrees Fahrenheit is a scalar quantity because it only has magnitude, which is the numerical value indicating the temperature, and no direction associated with it. Thus, it does not have any components that would make it a vector quantity.
Negative forty degrees
It is the only numerical temperature that is the same as its Fahrenheit counterpart.
The minimum temperature required for painting outside is typically around 50 degrees Fahrenheit (10 degrees Celsius).
The minimum temperature required for fire to ignite is typically around 600 degrees Celsius (1,112 degrees Fahrenheit).
The temperature - 40 °C is equal to -40 °F. This is the only temperature at which the two scales (Celsius and Fahrenheit) have the same numerical value.
It's - 40 degrees.
Kilowatts is a unit of energy rate, while the temperature required to raise a specific volume of water by a specific amount of degrees is a unit of energy, not energy rate. The question cannot, therefore, be answered as stated. Please restate the question.
The minimum temperature required to keep pipes from freezing is typically around 32 degrees Fahrenheit (0 degrees Celsius).
20 degrees Celsius is colder than 30 degrees Celsius. Temperature decreases as the numerical value decreases, so the lower the number, the colder the temperature.
100 degrees Celsius
The temperature required for nuclear fusion to occur is around 100 million degrees Celsius.
The minimum temperature required for a fire to ignite and sustain combustion is typically around 600 degrees Celsius (1,112 degrees Fahrenheit).