Normally there is no affect.
In a gas, a CHANGE of volume of a single body, will give a change in temperature.
If a gas is compressed the temperature will increase. If a gas is allowed to expand, there will be a reduction in temperature.
This principle is used in diesel engines, to ignite the fuel by compression and fridges, where an expansion of gas causes cooling.
High temperature makes the volume greater.
Pressure and temperature affect different gases differently giving varied conclusions to the exact volume of that gas.
Temperature increases as pressure increases.
if the dna sequence of a gene was tacttaccgagctagact then what kind of mutation has occured This has nothing to do with the question of air pressure. Either a change of temperature or a change of volume can affect air pressure, according to Boyle's Law of Gases. Increasing temperature=increased air pressure Decreased volume=increased air pressure The reverse is also true. Decreased temperature=decreased air pressure Increased volume=decreased air pressure
It would be approx 9042 litres.
High temperature makes the volume greater.
An increase in temperature will cause an increase in volume, while a decrease in temperature will cause a decrease in volume.
the higher the temperature, the higher the volume of a solid - michelle strafer
No, it does affect the volume of a gas according to the ideal gas law (PV=nRT).
If the temperature remains constant, decreasing the volume will increase the pressure.
Volume is the amount of space occupied by an object or substance. Two things that affect volume are the size or dimensions of the object and the temperature, which can cause expansion or contraction of the material, therefore changing its volume.
It affects pressure, not volume.
Volume is the ratio between mass and density; density depends on temperature.
yeah the temperature does increase, when you increase the volume of water the temperature of calcium hydroxide increases too!
Yes, it does affect the volume. The relationship between them can be explained by the equation pV=nRT (pressure x volume = number of moles of gas x molar gas constant x temperature). Therefore, there is a direct proportionality between temperature and volume. If the temperature doubles, so does the volume.
If the amount of gas and the pressure remain constant, the volume will decrease by 1/273rd the original volume for each degree Celsius that the temperature decreases.
At a constant temperature, the volume and the pressure are inversely proportional, that it, the greater the volume, the lesser the pressure on the gas, and viceversa.