i think a ten liter container at 800 degrees Celsius has more heat
The ten liter container at 80 degrees Celsius would have more heat because it has a higher thermal capacity due to its larger volume. Heat is directly proportional to the amount of substance present, so a larger container will contain more heat energy.
Yes, 1 kilogram of flour will typically be more compact than 1 liter of liquid, so it should fit in a container meant for 1 liter of liquid.
About twice the size of a 2 liter soda bottle. Liquid nitrogen is extremely cold- the container must be vacuum insulated, or the liquid nitrogen quickly turn to gas.
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It takes 6 SI calories to raise one liter of water by 6 degrees Celsius.
1 2-liter container holds a total of 2 liters of liquid.
Yes, 1 kilogram of flour will typically be more compact than 1 liter of liquid, so it should fit in a container meant for 1 liter of liquid.
About twice the size of a 2 liter soda bottle. Liquid nitrogen is extremely cold- the container must be vacuum insulated, or the liquid nitrogen quickly turn to gas.
1 liter
The density of helium gas at 25 degrees Celsius is approximately 0.1785 grams per liter.
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The density of oxygen at 25 degrees Celsius is approximately 1.1839 grams per liter (g/L).
It takes 6 SI calories to raise one liter of water by 6 degrees Celsius.
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1 2-liter container holds a total of 2 liters of liquid.
No, compost is bulky and will have air-spaces. So less compost can be packed into the litre container. Water is a liquid and will fill the container completely, and will be heavier.
The solubility of urea in water at 25 degrees Celsius is approximately 1080 grams per liter.
There is most likely a more efficient way to do this, but this is the best I can do for now.Notation: ( x , y ) where x is the amount of water in the 5-liter container and y is the amount of water in the 7-liter container1. Fill the five-liter container ( 5 , 0 )2. Pour the five-liter container into the seven-liter container ( 0 , 5 )3. Fill the five-liter container ( 5 , 5 )4. Fill the seven-liter container with the five-liter container, leaving 3 liters in the five-liter container ( 3 , 7 )5. Pour out the seven-liter container ( 3 , 0 )6. Pour the five-liter container into the seven-liter container ( 0 , 3 )7. Fill the five-liter container ( 5 , 3 )8. Fill the seven-liter container with the five-liter container, leaving 1 liter in the five-liter container ( 1 , 7 )9. Pour out the seven-liter container ( 1 , 0 )10. Pour the five-liter container into the seven-liter container ( 0 , 1 )11. Fill the five-liter container ( 5 , 1 )12. Pour the five-liter container into the seven-liter container ( 0 , 6 )