Question #17639

1 Answer
Lucky13
Apr 12, 2017

I'll show you!

Explanation:

For convenience, I will use kPa rather than mmHg. But that is a mere preference (and I will walk you through the same calculations using mmHg in the second part):

You should already know the relationship between volume and pressure:

Valpha1/p

You may also know that:

P_1V_1=P_2V_2 <- This essentially means, that the initial conditions the final conditions

So, what do we know from the question?
P_1=100kPa
V_1=2.5dm^3 (i.e. L)
P_2=66.66kPa

Hence:
100*2.5=66.66*V_2
V_2=3.75dm^3 (i.e. L)

The same thing is also true if you use mmHg:

P_1=750mmHg
V_1=2.5dm^3 (i.e. L)
P_2=500mmHg

Hence:
750*2.5=500*V_2
V_2=3.75dm^3 (i.e. L)

Hope it helped :)

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