The volume increases, which is why the mercury in a thermometer rises as the temperature increases.
When the temperature of the glass bottle and mercury increases, the volume of both also increases. However, since mercury has a greater coefficient of volume expansion than the glass, it will expand more, causing it to spill out of the bottle. The fraction that will spill out can be calculated using the coefficients of volume expansion for mercury and glass, along with the initial volume of mercury and bottle.
As mercury heats up in a beaker, it will expand due to the increase in temperature. This expansion can cause the level of the mercury in the beaker to rise, potentially overflowing if the volume increases significantly. Additionally, as the temperature continues to rise, the mercury may vaporize and release potentially harmful fumes into the air.
The pressure increases.
The volume of mercury can vary depending on its form and temperature. However, at room temperature, the volume of liquid mercury is approximately 13.5 cubic centimeters per gram.
DecreasesApex (:
if volume of a gas increases temperature also increases
Volume increases with increase in temperature, and decreases with decrease in temperature.
When the temperature of a gas is increased at a constant pressure, its volume increases. When the temperature of a gas is devreased at constnt pressure, its volume decreases.
When the temperature increases, the mercury in a thermometer expands and rises up the column because the volume of the liquid increases with temperature. This expansion is linear and is used to indicate the rise in temperature on the thermometer scale.
The volume increases Source:
When the Temperature increases, so does the Pressure.
The volume increases.
The mercury level in a thermometer placed in a hot tub of water will rise as the temperature of the water increases. This is because the volume of liquid mercury expands with higher temperatures, causing it to climb up the measuring scale in the thermometer.
If pressure remains constant, then volume is directly proportional to temperature. Hot air is quite loud.
the pressure and the temperature increases, and the volume is reduced.
When the temperature of the glass bottle and mercury increases, the volume of both also increases. However, since mercury has a greater coefficient of volume expansion than the glass, it will expand more, causing it to spill out of the bottle. The fraction that will spill out can be calculated using the coefficients of volume expansion for mercury and glass, along with the initial volume of mercury and bottle.
If temperature remains constant and the volume of gas increases, the pressure will decrease. This is described by Boyle's Law, which states that pressure and volume are inversely proportional when temperature is constant.