Assuming it is a perfect cylinder, the volume of a jar 2" high and 1.5" wide would be:
14.143in3 (rounded to the nearest thousandth)
The cylinder's volume was calculated using the formula v = πr2h where
v = volume
r = radius
h = height
The volume of a jar in millimetres does not make any sense because a millimetre is a measure of length, not volume.
That depends entirely on the dimensions of the jar !
3429 beans in the jar
It is impossible to calculate the volume of a jar given only these two dimensions. If the volume can be found you then need to know the density of whatever it is you are trying to fill it with.
1347
Four ounces (118 ml) is standard, but there are "stage 1" jars which are 2.5 oz, and there are large ones which are 6 oz (though these are less common).
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The diameter (or diaminter!) of the jar does not provide enough information. It is necessary to know the height of the jar so that its volume can be calculated.
You cannot calculate "mass" from this without a weigh measurement, since mass is a measure of weight. However you may be trying to calculate "volume", in which case use pi*radius squared to find the area of the base, then multiply this answer by the height. Volume is not the same as mass.
Calculate the volume of one sweet. Calculate the volume of the jar and then divide the volume of the jar by the volume of a sweet.
approx. 445
There is no way to compute the exact volume of a peanut butter jar [or "mix" if you complete the question] since not enough info is given to determine that quantity. We don't really know the height and the base of the peanut butter jar or mix!
The volume of a jar in millimetres does not make any sense because a millimetre is a measure of length, not volume.
A jar has a fixed volume.
The numerical value would depend on the volume of the jar
No, Jar Jar Binks is a male Gungan. He has a height of 1.96 meters and his eye color is orange.
The volume and shape of a gas are determined by its volume and shape of its container.