No, the volume of wood would not change when moved to a larger container. Volume is a measure of the amount of space occupied by an object, and it remains constant regardless of the size of the container in which the object is placed. The amount of wood remains the same, only the space it occupies may vary.
It does not because change only occurs when temperature is involved.
If the container is sealed and no gas is allowed to enter or exit, then the volume will not change. However, if the container is open and gas can enter or exit, then the volume may change depending on various factors such as temperature, pressure, or addition/removal of gas molecules.
In a container the volume remain constant but the pressure increase.
You would use liters (L) to measure the volume of a soda container in the metric system.
The substance would be in a gaseous state if it had no fixed volume. Gases have no fixed shape or volume and can expand to fill the container they are in.
It does not because change only occurs when temperature is involved.
Some will and some won't.
The volume of an object is determined by the product of the surface area and the height of the object. Hence if the big container has a bigger height then the volume would certainly be greater. However, when talking about the volume of the liquid, it will be constant. This is because, although the height of the liquid will be reduced by putting it into a bigger container, the surface area is increased. Therefore, it will be constant. ! xx
Definite volume in a liquid state is a physical property because liquids have a fixed volume that does not change significantly under normal conditions. The particles in liquids are close together and can move past each other, allowing the liquid to adjust its shape, while maintaining its volume. This distinct volume characteristic sets liquids apart from gases, which do not have a fixed volume.
The value will not change because no temperatures have been applied.
If the container is sealed and no gas is allowed to enter or exit, then the volume will not change. However, if the container is open and gas can enter or exit, then the volume may change depending on various factors such as temperature, pressure, or addition/removal of gas molecules.
The pressure of the gas inside the container will increase due to the increased kinetic energy of the gas molecules. This is described by the ideal gas law, PV = nRT, where P is pressure, V is volume, n is the number of moles, R is the gas constant, and T is temperature.
If you cool a gas then its volume shrinks. As the container is expand/contactable, the container will also shrink.
A gram of marshmallows would need a larger container because marshmallows have a larger volume than peanuts, therefore a particular weight of peanuts takes up less space than the same weight of marshmallows.
The gas state. A gas takes up the volume of the container in which it is placed.
In a container the volume remain constant but the pressure increase.
In terms of gases, a fixed volume would mean that the pressure, temperature and the number of molecules can change but the volume, or area in which the molecules lie, must remain constant