Yes. If, as for most common substances, the outside diameter of the cylinder increases on heating, the inside diameter will increase by the same percentage. This fact is used to shrink-fit pulleys to shafts.
no none of the answers were my question
you multiply them the change it to liters
describe how heating can change the water
The heating itself is a physical change, a chemical change might come from the heating, however.
The surface area of the 'wall' doubles, but the base areas remain the same.
Heating is a physical change.
Heating anything to a visible change is ALWAYS a chemical change
Since we are talking abut heating and cooling - we define those both as changing the temperature so that is one characteristic. Other characteristics depend on how the heating and cooling occur. If the pressure remains the same, air will expand on heating and contract on cooling. If the volume is held constant, the pressure will increase with heating and decrease with cooling. The internal energy depends on what you do with pressure, work and heat. You can actually get a warmer gas with less internal energy and a cooler gas with more internal energy.
Change the mixed numbers into improper fractions or decimals and use the formula for the cylinder's entire surface area of: (2*pi*radius2)+(pi*diameter*height)
Submerge the ball, if it's small enough, into a graduated cylinder and measure the volume change. Take that number and divide it by 4, then divide it by 3.1415, then multiply it by three, then take the cube root of it, then multiply it by 2. There's your diameter!
Divide the diameter by 2.
circumference/pi = diameter