Charles’ Law is when the volume and temperature varies at constant pressure, which means when the pressure is constant then the temperature and volume will be related. The equation for Charles’ Law is V1/T1=V2/T2. The volume in a sample of gas would be 145.5L at 20 degree Celsius.

## What type of relationship is v1 T1 v2 t2?

Charles’s Law V1/T1 = V2/T2 At constant amount of gas, as volume increases, its’ temperature increases and vice versa. Volume and temperature are directly proportional. /T1 n1 = P2V2/T2n2 The ratio between the pressure- volume product and the temperature of a system remains constant.

## What law is v1 T1 v2 t2?

Charles’s law formula: V1 / T1 = V2 / T2. This law was then used to determine the volume or temperature of a gas. (The temperature should be given in whole units, i.e. K) At 29.0 degrees, a sample of nitrogen gas has a volume of 39.0 L.

## What does T1 and t2 mean in Charles Law?

T1 = -173° C + 273 ° K = 100 ° K (temperatures used in Charles Law must be in Absolute Scale) V2 = 120 liters. T2 = 327° C + 273 ° K = 600 ° K.

## What is the relationship between V1 and V2?

A: V1 is the speed by which time the decision to continue flight if an engine fails has been made. It can be said that V1 is the “commit to fly” speed. V2 is the speed at which the airplane will climb in the event of an engine failure.

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## What is V2 in chemistry?

You can solve for the concentration or volume of the concentrated or dilute solution using the equation: M1V1 = M2V2, where M1 is the concentration in molarity (moles/Liters) of the concentrated solution, V2 is the volume of the concentrated solution, M2 is the concentration in molarity of the dilute solution (after

## What is K in PV K?

BOYLE’S LAW: PV = k where P = pressure, V = volume, and k = constant. (The temperature of the gas must be constant.)

## What law is represented by the following formula P1 T1 P2 T2?

Gay-Lussac’s Law or Third Gas Law states that for a constant volume, the pressure is directly proportional to absolute temperature: P alpha T; also stated as P/T = K, where K is a constant, and similarly, P1/T1 = P2/T2. 