Ideal Gas Law
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PV=nRT where p is pressure, v is volume, n is the number of gas molecules,
R is the ideal gas constant (0.0821 L x atm/mol x K), and t is temperature
Wavelength Formula
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lambda=wave speed/frequency
Thermal Expansion Formula
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Change in length/initial length = linear cofficient of thermal expansion x
change in temperature
Energy of a photon equation
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Planck's constant x speed of light / frequency
pressure formula
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pressure = force/area
Ideal Gas Constant
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An experimentally determined constant whose value in the ideal gas
equation depends on the units that are used for pressure; (0.0821 L x
atm/mol x K)
Gay-Lussac's Law
Give this one a try later!
PV=nRT where p is pressure, v is volume, n is the number of gas molecules,
R is the ideal gas constant (0.0821 L x atm/mol x K), and t is temperature
Wavelength Formula
Give this one a try later!
lambda=wave speed/frequency
Thermal Expansion Formula
, Give this one a try later!
Change in length/initial length = linear cofficient of thermal expansion x
change in temperature
Energy of a photon equation
Give this one a try later!
Planck's constant x speed of light / frequency
pressure formula
Give this one a try later!
pressure = force/area
Ideal Gas Constant
Give this one a try later!
An experimentally determined constant whose value in the ideal gas
equation depends on the units that are used for pressure; (0.0821 L x
atm/mol x K)
Gay-Lussac's Law
