answer: 7680 btu
1 gallon= 8 lb
130F-50F=80F
12G*8LB*80F=7680 BTU
That'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.
200 BTU. I'm assuming your temperatures are in Fahrenheit, since all of your other measurements are in the Imperial system. A BTU is defined as the amount of energy required to raise the temperature of 1 pound water by 1 degree F, so the temperature is raised by 20 degrees, and 10 pounds of water: 20 x 10 = 200
A joule is a measurement of energy. A degree Fahrenheit is a measurement of temperature. It is not possible to convert between one and the other.
If you want to be pedantic, scientists measure temperature in kelvins, not degrees. Heat is energy and is measured in energy units, like joules.
Absolute 0 is negative two hundred and seventy three degrees Fahrenheit, the kelvin scale measure's this. Absolute is were no molecular movement is made. Are you positive about the -273 degrees Fahrenheit measured by the Kelvin scale? ^^ Abs. 0 = -273.15 K, or -459.67 degrees F, where molecular movement would not have enough energy to transfer electrons and thus create molecular or ionic bonds. Molecular kinetic energy is at 0.
Temperature is usually measured with a thermometer which tells you how many degrees Celsius or Fahrenheit the temperature is (Fahrenheit is the American measure and Celsius is what everyone else uses)
No, Fahrenheit is the Imperial Unit for temperature, not heat. Heat is energy in transit and is measured in joules (in the SI sytem).
That would be at absolute zero, where all molecular motion cease. The temperature is 0 Kelvin or -273.15 degrees Celsius or -459.67 degrees Fahrenheit.
Heat energy is measured as temperature in Kelvins [K] (also degrees Celsius [°C] and degrees Fahrenheit [°F]) and tells us the average kinetic energy of the molecules.
-273.15 degrees Celsius (-459.67 degrees Fahrenheit) is the temperature at which no more energy can be removed from matter.It is called Absolute Zero and marks the 0 for the Kelvin and Rankine scale.
-273.15 degrees Celsius (-459.67 degrees Fahrenheit) is the temperature at which no more energy can be removed from matter.It is called Absolute Zero and marks the 0 for the Kelvin and Rankine scale.
If you are asking why a green heating system will not go above 68 degrees Fahrenheit then one reason is to save energy. The higher the temperature the more energy required to get to that temperature and the more energy required to keep that temperature.
It is an impossible temperature in the Celsius scale. Absolute Zero is the lowest possible temperature, the theoretical point at which no energy is present in matter. No matter can be colder than absolute zero, which is -273.15 °C or the equivalent temperature of -459.67 °F.
It would be greater at 48 degrees Fahrenheit.
The temperature, in degrees in Fahrenheit or Celsius. In other words temperature is a physical property of a procedure that describes hot and cold.
Plotted against internal thermal energy density, the Celsius and Fahrenheit scalesof temperature are straight lines with different slopes and different intercepts.The lines intersect (Celsius and Fahrenheit temperatures are equal) at -40 .(And don't ask me which one.)
Heat is the form of energy that is released from compost bins. Two temperature ranges that are micro-organism-specific obtain in aerobically decomposing compost bins. Mesophilic micro-organisms require temperature ranges of 50 to 115 degrees Fahrenheit (10 to 46.11 degrees Celsius) while thermophilic bacteria need ranges between 140 and 150 degrees Fahrenheit (60 to 71.11 degrees Celsius).