Wiki User
∙ 13y agoThat's going to depend on how much water you're responsible for.
Teacup at 60 degrees . . . very few BTU.
Swimming pool at 60 degrees . . . many more BTU.
It's also going to depend on whether you're talking about Celsius or Fahrenheit degrees.
Fahrenheit degrees . . . fewer BTU.
Celsius degrees . . . more BTU. (Also, the water will escape as you pass 100.)
In general, one BTU is approximately the energy required to raise the temperature
of 1 pound of water 1 degree Fahrenheit. You can take it from there, when you reach
the job site and determine the exact scope of the work.
Wiki User
∙ 13y agoThat will completely depend on how much water there is.
U.S.gallon = 8.33 pounds of water. Therefore to raise the temperature by one degree F will require 8.33 BTU. The initial temperature of 50 F is inconsequential.
To raise the temperature of one cc of water requires i calorie of heat . you did not specify the volume.
2250
q (amt of heat) = mass * specific heat * temp. differenceThe specific heat of water is 1.00 cal/goC & the temperature difference is 70-30 = 40oCq = (105 grams)*(1.00 cal/goC)*(40oC)= 4,200 calories
That will completely depend on how much water there is.
It takes 1 calorie to raise the temperature of 1 gram of water by 1 degree Celsius. Therefore, to raise the temperature of 1 gram of water by 5 degrees Celsius, it would require 5 calories.
A calorie is the amount of heat you need to raise the temperature of one gram of water by one degree Celsius. Assuming you are raising the temperature of the water from twenty degrees Celsius to ninety-nine degrees Celsius, it would take 20,000 calories. To calculate this, subtract 20 from 99. This is the amount of degrees you need to raise the temperature of the water by. Then multiply that number by 256, the amount of water in grams. You should get 20,244 calories. In significant digits, your answer should be 20,000 calories.
U.S.gallon = 8.33 pounds of water. Therefore to raise the temperature by one degree F will require 8.33 BTU. The initial temperature of 50 F is inconsequential.
To raise the temperature of one cc of water requires i calorie of heat . you did not specify the volume.
To calculate the temperature change, divide the energy (340 J) by the mass of water (6.8 g) and the specific heat capacity of water (4.18 J/g°C). This will give you the temperature increase in degrees Celsius.
To raise the temperature of 1000 liters of water by 10 degrees Celsius, you would require approximately 239 kilowatt-hours of energy. This can be calculated using the specific heat capacity of water and the formula for calculating energy required for temperature change.
It takes 180 BTUs to raise 1 pound of water from 32 degrees Fahrenheit to 212 degrees Fahrenheit to convert it completely into steam. This change in temperature includes heating the water from its freezing point to boiling point, then undergoing phase change from liquid to gas.
To calculate the BTUs required to raise the temperature of 15 pounds of water, you can use the formula: BTUs = Weight of water in pounds × Temperature change in degrees Fahrenheit × 1 BTU So, the calculation would be: BTUs = 15 lbs × (130°F - 100°F) × 1 BTU = 15 lbs × 30°F = 450 BTUs.
It depends on what temperature is is at and how much water there is.
10-12
12oC