Part 1 --- you are right about inverse proportionality of boyle 's law which assumes everything else (Temp, # of moles..) are constant. Then you can rightly assume that

**V**=k/P which means if you increas the pressure, the volume will decrease...3 Answers · Science & Mathematics · 15/10/2007

...gas kept at a fixed temperature, P (pressure) and

**V**(volume) are inversely proportional (while one increases...after it has changed. http://en.wikipedia.org/wiki/ Boyle %27s_Law1 Answers · Science & Mathematics · 23/05/2009

... = (V2 *P2)/T2 (325ml * 445kPa)/(273 + 12) = (

**V*** 101kPa)/(273 + 21) 507.46 = (**V*** 101)/294 101V = 149192.11...4 Answers · Science & Mathematics · 11/04/2008

Boyle 's Law states that the Pressure of a gas is inversely proportional to the Volume... is an equation which states pV = nRT where p is pressure in pascals,

**V**is volume in m^3, n is number of moles of gas, R is a constant 8.31, and...1 Answers · Science & Mathematics · 09/11/2013

...: (600 * 100) / 298.15 = 201.240986 201.240986 = 400V/253.15

**V**=127.36 L3 Answers · Science & Mathematics · 01/06/2008

for all of these two state gas law problems I recommend following this method. steps 1-4 .. (1).. write down P1V1 /(n1T1) = P2V2 / (n2T2) .. (2).. rearrange for your desired unknown .. (3).. identify and cancel anything held constant...

1 Answers · Science & Mathematics · 22/11/2015

volume is inversely proportional to pressure P1V1 = P2V2 Boyle 's Law so double the P would cut

**V**in half giving 250 mL If someone gives you a good response...1 Answers · Science & Mathematics · 05/04/2015

**V**= T and T = P are not true statements.**V**... proportional to T. Also, P is proportional to 1/**V**One thing that may confuse you is the use of K, K and...1 Answers · Science & Mathematics · 10/06/2010

...directly proportional to each other as long as pressure is held constant."

**V**/T = k Boyle 's law asserts that "pressure and volume are inversely proportional...3 Answers · Science & Mathematics · 19/05/2009

The amount of gas is the same, just the volumetric density changes with a change in volume. Think of it like a handful of dimes in a volume, you increase the volume and you still have the same number of dimes.

3 Answers · Science & Mathematics · 24/01/2016