Ask question

Ask question

All categories

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

You might be interested in

A boy is inning with a kinetic energy of 810j. If the boy has a mass of 80kg. What is his speed ?

Eva8 [605]

His speed is 4.5 m/s

7 0

3 years ago

A 8kg cat us running 4 m/s. How much kenetic energy is that

Flauer [41]

Using the Definition of Kinetic Energy, we have:

$E_{c}= \frac{mv^2}{2} \\ E_{c}= \frac{8*4^2}{2} \\ \boxed {E_{c}=64J}$

3 0

3 years ago

In the chemical equation above, the small number after the O in 1202 represent —

Murrr4er [49]

Answer:

G.) The number atoms of that element in the molecule

Explanation:

F is incorrect because the coefficient represents the amount of one type of molecule, not the subscript

G is correct because subscripts represent how many atoms of that element are present in that single molecule

H is incorrect because energy is not represented in this simple type of equation

J is incorrect because it doesn't even make sense

7 0

3 years ago

How do you find acceleration due to gravity with time and height given?

Feliz [49]

Here, height is given which will be the distance for a freely falling object.

The velocity will be

$v=\text{ }\frac{h}{t}$

and the acceleration will be

$a=\frac{v}{t}$

In this way, the formula works.

3 0

1 year ago

PLEASE HELP ASAP!!!!!

Igoryamba

While falling, both the sheet of paper and the paper ball experience air resistance. But the surface area of the sheet is much more than that of the spherical ball. And air resistance varies directly with surface area. Hence the sheet experiences more air resistance than the ball and it falls more slowly than the paper ball.

Hope that helps!

8 0

3 years ago