According to Charles law, the volume of gas decreases with lower temperatures and increases with higher temperatures
The volume decrease.
Temperature is directly proportional to volume i.e. as temperature increases volume of gas also increases and as it decreases, the volume also decreases
To change an object's density, you can change either its mass or volume. Increasing the mass or decreasing the volume will increase the density, while decreasing the mass or increasing the volume will decrease the density.
If the volume remains the same, the density will increase in direct proportion to the increase in mass.
Charles's Law states that at constant pressure, the volume of a gas is directly proportional to its absolute temperature. Therefore, when the temperature of a gas decreases, its volume will also decrease.
When an object is compressed, its particles are pushed closer together, causing the object to decrease in volume but increase in density. The compression can lead to an increase in pressure and temperature within the object.
Volume increases with increase in temperature, and decreases with decrease in temperature.
The decrease in the volume of an object as it cools is called thermal contraction. This occurs because as the temperature decreases, the particles in the object slow down, reducing the space between them and causing the object to shrink in volume.
The temperature and pressure rise.
The density of an object is determined by its mass and volume. If the mass of the object increases and its volume stays the same, the density will increase. If the volume of the object increases and the mass stays the same, the density will decrease.
An increase in temperature will cause an increase in volume, while a decrease in temperature will cause a decrease in volume.
In this case the pressure decrease.
The temperature decrease and also the volume.
In this case the pressure decrease.
If the volume stays the same, the pressure will decrease.
The volume decrease.
The hotter an object is, the more vigorously its atoms or molecules vibrate, and in doing so generally they take up more space (the object expands). This implies that a hot object is less dense than when it is cooler (because of its volume increase)