0
Would you have obtained a different temperature for absolute zero if you recorded the pressure in psi instead of kpa?
No, the temperature for absolute zero would remain the same regardless of whether pressure is recorded in psi or kPa. Absolute zero is defined as 0 Kelvin, which corresponds to a theoretical temperature where molecular motion ceases. While pressure measurements in different units may yield different numerical values, they do not affect the fundamental physical properties of temperature and absolute zero.
What else can I help you with?
With respect to gages Boyle's law shows the relationship between?
Boyle's Law says that PV is constant for ideal gas at a constant temperature. The pressure used should be the absolute pressure, not the gage pressure. Ge the absolute pressure should be obtained using : P = PG + PE where PG = gage pressure ( kPag , psig, etc. ) PE = barometric pressure ( kPaa, psia, etc. ) P = absolute pressure ( kPaa , psia, etc. ) ( PG + PE ) ( V ) = Constant for constant temperature The g in kPag and in psig indicates gage pressure.
Which law is described by saying that doubling the absolute temperature will double the pressure of a sample of gas in a rigid container?
The law described is Gay-Lussac's Law, which states that the pressure of a gas is directly proportional to its absolute temperature when the volume remains constant. Therefore, if the absolute temperature of a gas in a rigid container is doubled, the pressure will also double, assuming the amount of gas does not change. This relationship highlights the direct correlation between temperature and pressure in gas behavior.
Is true vapor pressure absolute pressure?
No, true vapor pressure is the pressure exerted by a vapor in equilibrium with its condensed phase at a given temperature. Absolute pressure refers to the total pressure within a system, including atmospheric pressure. These two concepts are related but not the same.
Convert dew point to absolute humidity?
To convert from dew point to absolute humidity, you need to know the temperature of the air. The formula to calculate absolute humidity is: Absolute Humidity = 216.7 * (e/(T + 273.15)), where e is the vapor pressure at the dew point temperature and T is the temperature in degrees Celsius.
What happens to pressure when the temperature and volume is halved?
if kelvin temp is halved, the volume is halved if pressure is constant.
How are metal oxides obtained?
it is obtained by varying either temperature or pressure.
With respect to gages Boyle's law shows the relationship between?
Boyle's Law says that PV is constant for ideal gas at a constant temperature. The pressure used should be the absolute pressure, not the gage pressure. Ge the absolute pressure should be obtained using : P = PG + PE where PG = gage pressure ( kPag , psig, etc. ) PE = barometric pressure ( kPaa, psia, etc. ) P = absolute pressure ( kPaa , psia, etc. ) ( PG + PE ) ( V ) = Constant for constant temperature The g in kPag and in psig indicates gage pressure.
A quantity of a gas has an absolute pressure of 400 KPa and absolute temperature of 110 Kelvin when the temperature of the gas is raised to 235 kelvin what is the new pressure of the gas?
A : 845.46 kPa
What is the formula for finding pressure?
I suppose you mean the formula for the variation in pressure. The simplest expression of this is, at a fixed temperature,and for a given mass of gas, pressure x volume = constant. This is known as Boyle's Law. If the temperature is changing, then we get two relations: 1. If the pressure is fixed, volume = constant x temperature (absolute) 2. If the volume is fixed, pressure = constant x temperature (absolute) These can be combined into the ideal gas equation Pressure x Volume = constant x Temperature (absolute), or PV = RT where R = the molar gas constant. (Absolute temperature means degrees kelvin, where zero is -273 celsius)
What are different types of pressure sensors?
absolute pressure; gauge pressure; atmospheric pressure...
What is Lussac Law?
A statement, derived by French physicist and chemist Joseph Gay-Lussac (1778-1850), which holds that the pressure of a gas is directly related to its absolute temperature. Hence, the ratio of pressure to absolute temperature is a constant.
What is one atmosphere?
A pressure measurement, in comparison to atmospheric pressure on Earth, at sea level, near sea level, at standard temperature, usually expressing an absolute pressure (but does not have to be). 1 atmosphere absolute = 1.01325 bar absolute 1 atmosphere absolute = 101,325 pascal absolute 1 atmosphere absolute = 14.69595 psi absolute
What is the speedof sound at normal temperature and pressure?
Usually we use a temperature of 20°C and an absolute pressure of 101.325 kPa for 1 atmospher.
What is the temperature at which an ideal gas occupies zero pressure?
The temperature at which an ideal gas occupies zero pressure is called absolute zero. It is defined as 0 Kelvin or -273.15 degrees Celsius. At this temperature, the particles in the gas have minimal kinetic energy and do not exert any pressure.
Which law is described by saying that doubling the absolute temperature will double the pressure of a sample of gas in a rigid container?
The law described is Gay-Lussac's Law, which states that the pressure of a gas is directly proportional to its absolute temperature when the volume remains constant. Therefore, if the absolute temperature of a gas in a rigid container is doubled, the pressure will also double, assuming the amount of gas does not change. This relationship highlights the direct correlation between temperature and pressure in gas behavior.
What temperature and pressure are defined as Standard Temperature and Pressure?
Usually we use a temperature of 20 °C and an absolute pressure of 101.325 kPa for 1 atmosphere.
What is true about the tempeature of a gas?
Lots of things are true... Here are some:* For constant pressure, the volume of an ideal gas is directly proportional to the absolute temperature. * For constant volume, the pressure of an ideal gas is directly proportional to the absolute temperature.
