If you reduced the volume by 0.25 then the answer is evident. Your question is very vague... If you reduced the length of one side to 3/4 it's origional... volume decrease to 33/43 or 27/64 (under half) This is because volume is proportional to length cubed. If you reduced the area of one side to 3/4 it's origional... volume would decrease to 33/2/43/2 (about 65% origional) This is because volume is proportional to length cubed and area is proportional to length squared.
You can calculated reduced volume by getting the starting volume and subtracting it from the finished volume For example, If I had 890ml of water and I had 155ml left, How much has the volume reduced by. 890 - 155 = 735. So the answer would be that the water has been reduced by a total of 735ml.
If the marbles are identical, the volume is the same. If you want, you can use different units and it looks like the volume is different.
Yes. A good example would be styrofoam and steel. The same volume of each of these substances would make for vastly different weights.
While a pound is a measurement of weight, a quart is a measurement of volume. The density and size of an item would be needed to find the weight of a specific volume.
The volume is reduced by 7/8. for example - if you had a cube measuring 4 cm each side - the volume would be 4x4x4=64cm3. Halving each side to 2cm would result in the sum 2x2x2=8cm3. 8 is one-eighth of 64.
Assuming it's a bag of gas at constant temperature, four times the volume by the relationship: P1V1 = P2V2
You can calculated reduced volume by getting the starting volume and subtracting it from the finished volume For example, If I had 890ml of water and I had 155ml left, How much has the volume reduced by. 890 - 155 = 735. So the answer would be that the water has been reduced by a total of 735ml.
This is the reduction of volume to one-third.
The volume would be reduced by a factor of 64.
B.
The radius of a U.S. quarter is about 0.478 inches. The thickness of a U.S. quarter is about 0.069 inches. Being cylindrical, the volume of the quarter will be πr2h: v = πr2h ∴ v ≈ 3.142 × (0.478")2 × 0.069" ∴ v ≈ 0.488 cubic inches. All you need to do then is divide volume of the cylinder by the volume of the quarter: 169.56 / 0.488 ≈ 345.41 So it would take about 346 US quarters to fill such a cylinder.
You could increase its volume or cool it or both.
It would increase the density of sea water as water volume is reduced and salt volume remains unchanged
If the marbles are identical, the volume is the same. If you want, you can use different units and it looks like the volume is different.
well the volume of an octagon would be different for every octagon.
Pressure is due to the bombardment of molecules on the walls of the container. So when the volume is reduced then naturally the surface area will be reduced. Pressure is the force measured per unit area. Hence reducing volume would bring a decrease in its surface area and so the pressure increases. So volume and pressure are getting related.
First, you must decide whether with "size" you mean the diameter (or equivalently the radius), or the volume. Assuming you mean the volume, an ideal gas will shrink to half the volume if the temperature is reduced to one-half, so that might be a good approximation. However, the temperatures must first be converted to Kelvin. (If you mean the diameter, for the diameter to get reduced to 1/2 the original diameter, the volume would get reduced by 1/8 of the original volume).