Steel.
The answer is zero. A 2D shape has no volume.
The surface-area-to-volume ratio may be calculated as follows: -- Find the surface area of the shape. -- Find the volume of the shape. -- Divide the surface area by the volume. The quotient is the surface-area-to-volume ratio.
64
It depends on the shape of the tank.
Two different shapes can have the same volume, depending on the dimensions of each one.
It had definite shape and volume
Shape the aluminum to look like a boat, so it displaces enough water to float. The force supporting the aluminum is the buoyant force. It is equal to the weight of the volume of water displaced.
A sphere contains heat best, since it has the highest ratio of volume to surface area, of any shape.
All that has changed is the shape.
A solid has a volume and a shape a liquid has a volume but no certain shape a gas has no certain volume and no certain shape
liquid has no definite shape and a solid has no definite shape or volume
So they can withstand with high temperature and round shape give u highest volume...
- solids have a shape and a volume- liquids have a volume but not a shape- gases haven't shape or volume (in free form)
It has a fixed shape and volume
Solids have definite shape and definite volume. Liquids have not definite shape but have definite volume. Gases have neither definite shape not definite volume.
No, it doesn't. It does not have a shape or volume.
Surface tension is in equilibrium. The shape of a sphere has the highest volume to surface area to radius ratio. This shape is the lowest energy level a volume of liquid can have. Deforming it into another shape would involve an increase in surface area and an increase in the average radius.