1 000 000 (cu centimeters) = 1 000 liters
10000000
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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 )
It is 33 fluid ounces.
In a container, easily.
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.
As illustrated in the 1995 movie Die Hard 3 (Bruce Willis, Samuel K. Jackson), you can measure out exactly 7 liters in the following manner:Fill the 5 liter container, then use that 5 liters to fill the 3 liter container.Dump out the 3 liter container.What was left in the 5 gallon container is 2 liters. Pour this into the 3 liter container.Fill the 5 liter container again.You now have 7 liters : 5 in the large container and 2 in the smaller one.
The temperature change of the water in the 1-liter container will be greater than that of the 2-liter container when the same quantity of heat is added. This is because temperature change is inversely proportional to the mass of the substance when heat is added, as described by the formula (Q = mc\Delta T), where (Q) is the heat added, (m) is the mass, (c) is the specific heat capacity, and (\Delta T) is the temperature change. Since the 1-liter container has less mass, it will experience a larger temperature increase.
If you fill the container up then Yes. Litres are a measure of volume, which remains the same regardless of what fluid or material you are describing.
2 liters and 1/2 liter = 2,500 milliliters, IF he filled both of them.
Here's how to proceed:Fill container B with 3 liters.Pour the 3 liters from container B into container A.Fill container B again with 3 liters.Carefully pour from container B into container A, until container A is full.Container A already had 3 liters, so it only takes 2 more liters to fill it to 5 liters, leaving 1 liter remaining in container B.
When water is poured into a container, it occupies space within the container, causing the air volume to decrease. The air that was previously in the container is displaced by the water. If the container is sealed, the total volume remains constant, but the volume of air decreases as water fills the space. If the container is open, the air can escape, and the air volume may not change significantly.