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3 years ago

8

An ideal gas occupies a volume of 0.60 m^3 at 5.0 ATM and 400. K. What volume does it occupy at 4.0 ATM and a temperature of 200

. K?

1 answer:

sattari [20]3 years ago

7 0

Answer:0.375m3

Explanation:This is general gas law. The expression is given by P1V1/T1 =P2V2/T2

we are looking for V2 so let's make it the change of subject of formula

V2= P1xV1xT2/P2T1

= 5 x 0.6 x 200/400 x 4

= 0.375m3

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The ball would have landed 3.31m farther if the downward angle were 6.0° instead.

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In order to solve this problem we must first start by doing a drawing that will represent the situation. (See picture attached).

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so now we can find the distance from the net to point A with this time. We can find it like this:

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t= -0.9159s or t=0.468s

we pick the positive one, so it takes 0.468s for the ball to hit on point B.

so now we can find the distance from the net to point B with this time. We can find it like this:

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So once we got the two distances we can now find the difference between them:

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