Science chemistry

Benedict Tedios

Cards (40)

Boyle's law-pressure and volume
Charles' law-volume and temperature
Gay-lussac's law-temperature and pressure
Kinetic -understand the different properties
Gases- far greater
Gas molecules-random motion
Perfectly elastic collision-no loss of energy
Attractive and repulsive-molecules are so weak that they are considered to be a significant
The average kinetic energy of gas-molecules is directly related to its temperature
Avogadro's law-that the volume of gas is directly related to the number of moles when both pressure and temperature are healed constant
Boyle's law formula-P1 V1= P2 V2
Ideal gas law-was based on experimental measurement of the properties of gases
Formula of ideal gas law-PV=nRT
Formula of boyle's law:P1 V1=P2 V2
Pressure stands for- atm, torr, Kpa
Volume stands for-ml, L
Temperature stands for- K
Amount (n) stands for- mol
V1 stands for- initial volume
V2 stands for- final volume
n1 stands for- initial mols
n2 stands for-final mol
P stands for- atm
P stands for- L
R stands for- 0.00821 L.atm-mol.k
Attractive repulsive force are absent
Properties of pressure- atm, kpa,toor
Properties of volume- ml, liter and millimeter
Properties of temperature is- K
Amount of n is- mol
P- pressure in atmosphere (atm)
V- volume in liters (L)
N- amount in mole (mol)
T- temperature in kelvin (k)
R- universal gas constant equal to 0.0821 L.atm mol.k
Formula of boyle's law- p1 v1 = p2 v2
Formula of Charles Law:V1÷T1= V2÷T2
Formula of gay-lussac's law:P1 ÷ T1 = P2 ÷ T2
Formula of ideal gas law:V= RnT ÷ P
Formula of avogadro's law:V1÷n1 = V2 ÷ n2

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