The question is : A 2000W electric heater supplies energy to 0.5kg copper kettle containing 1kg of water. calculate time taken to raise the temperature by 10 degree
To achieve 49 degrees in the 20-liter tank, you will need to calculate the energy required to heat the cold water to 80 degrees. Then, calculate the heat exchange between the hot and cold water to reach the final temperature of 49 degrees. The amount of 80-degree water needed depends on the specific heat capacity of both hot and cold water.
To calculate subcooling in HVAC, you need to measure the liquid line temperature and pressure. First, convert the pressure into temperature using a temperature-pressure chart. Subtract the liquid line temperature from the converted temperature to calculate the subcooling. Subcooling is important to ensure the liquid refrigerant leaving the condenser is cooler than its saturation point to prevent the formation of flash gas in the metering device.
The quantity of heat required to change an object's temperature by 1 degree Celsius depends on its specific heat capacity and mass. The formula to calculate this is Q = mcΔT, where Q is the heat energy, m is the mass of the object, c is the specific heat capacity, and ΔT is the change in temperature.
To solve this problem, you can use the principle of conservation of energy: Heat gained by the metal = heat lost by the metal + heat gained by the water Plug in the given values and use the specific heat capacity of metal and water to calculate the initial temperature of the metal before mixing.
Air temperature.
Refer to the related question in the Related question section below.
1 degree is a measurement of temperature or angles. Centimetres are a measurement of distance. You cannot convert them to temperature or angles, so there is no answer to your question.
45 degree - if the question concerns an angle. If it is temperature, the answer depends on the scale.
If the question is about temperature difference of 1 degree Celsius, then it equals one Kelvin.If the question is about the specific temperature of 1 degree Celsius, then it equals:1 + 273.16 = 274.16 Kelvin
The temperature was up by about one degree. The temperature rose about one degree. The temperature dropped about one degree.
Heating degree day:For each regular temperature measurement in a day write down 0 iftemperature is above heating-balance-temperature. Otherwise write down the difference between balance-temperature and air-temperature. Degree days is the average of all the numbers written down.Cooling degree day:For each regular temperature measurement in a day write down 0 iftemperature is below cooling-balance-temperature. Otherwise write down the difference between balance-temperature and air-temperature. Degree days is the average of all the numbers written down.
A degree is a measure of temperature or angle. An inch is a measure of length. Without further information an answer to this question cannot be given.
A degree is a unit of temperature.
A degree Celsius is a measure of temperature.
To achieve 49 degrees in the 20-liter tank, you will need to calculate the energy required to heat the cold water to 80 degrees. Then, calculate the heat exchange between the hot and cold water to reach the final temperature of 49 degrees. The amount of 80-degree water needed depends on the specific heat capacity of both hot and cold water.
One degree Fahrenheit is equal to 0.5556 degrees Celsius. To convert this temperature change to energy in joules, you would need to know the specific heat capacity of the substance in question. The formula to calculate the energy change in joules is Q = mcΔT, where Q is the energy change, m is the mass of the substance, c is the specific heat capacity, and ΔT is the temperature change in degrees Celsius.
15 0C is the temperature for the required conversion.