The pressure of a ideal gas is inversely proportional to its volume, if the temperature and amount of gas is held constant. Doubling gas pressure halves gas volume, if temperature and amount of gas don't change. If the initial pressure and volume are P1 and V1 and the final pressure and volume are P2V2, then P1V1 = P2V2 at fixed temperature and gas amount.
describes the relationship between the pressure (P) and the volume (V) of a gas. The law states that if the volume increases, then the pressure must decrease (or vice versa).
Boyle's law is the empirical law, exact only for an ideal gas, which states that the volume of a gas is inversely proportional to its pressure at constant temperature.
The principle that, in a gas, pressure and volume are inversely related.
A law of physics that explains the pressure and volume relationships of gases. It states that a volume of a gas is inversely proportional to the absolute pressure, while the density of that volume of gas is directly proportional. This principle explains how pressure affects air spaces within a diver's body and gear. Bradycardia: The slowing of the heart beat. In divers, it's triggered by immersion of ones' face in cold water (see diving reflex).
the pressure of an ideal gas at constant temperature varies inversely with the volume
Boyle's Law states that for a fixed mass of gas, at a fixed temperature, the pressure multiplied by the volume is always a constant. Pressure in Gases
the principle that at constant temperature the volume of a gas varies inversely as the absolute pressure applied to the gas.
Under constant temperature, the volume of a given mass of gas is inversely proportional to the absolute pressure of the gas.
A fundamental law in the behavior of ideal gases: if temperature is kept constant, the density D of a gas varies proportionally to its pressure P. Actual gases usually approximate ideal ones pretty well as long as the temperature is far above their boiling point, e.g. nitrogen and oxygen in ordinary air.
For a fixed mass of gas is kept at constant temperature, the volume is inversely proportional to the pressure.
The volume of a dry gas varies inversely with the pressure exerted upon it, provided the temperature is constant.
States that the volume of a gas, at constant temperature, varies inversely with the pressure.
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A law that relates the inverse relationship of volume and pressure of an ideal gas held at a fixed temperature.
the volume of a given sample of gas at constant temperature varies inversely with the pressure.
The empirical generalization that for many so-called perfect gases, the product of pressure and volume is constant in an isothermal process. Named for Robert Boyle (1627-1691), a British chemist who formulated this relationship.
at a fixed temperature for a fixed mass of gas, pressure times volume is a constant value.
Boyle's law states that the volume of a given amount of gas varies inversely with its pressure, if temperature is constant. This means that at a constant temperature, the pressure of a gas will increase as the volume of the gas is decreased.
States that when the temperature is held constant, the volume of a gas is inversely proportional to its pressure. Therefore, if the pressure increases, the volume decreases and visa versa. For example, if the volume if halved, then the pressure is doubled. If the temperature is held constant, it becomes an isothermal process. Discovered by Robert Boyle (1627-1691), an Irish physicist and chemist and co-founder of the Royal Society.
At constant temperature the volume occupied by a definite mass of a gas is inversely proportional to the applied pressure.
If the temperature of a given kind of gas is held constant, the volume of a sample gas varies inversely with the pressure. See also Charles Law.
When the temperature and mass of a gas are kept constant, the product of the pressure and volume is equal to a constant. Boyle's Law states that the pressure of a gas is inversely proportional to its volume at a given temperature. This law relates to the compressibility of gas and the effect of temperature and volume on the pressure in a pressurized container.
Boyle's law (sometimes referred to as the Boyle Mariotte law) is one of the gas laws.