Calculating % Change in Balloon's Volume at Different Altitude and Temp

AI Thread Summary
To calculate the percentage change in a helium balloon's volume as it rises from sea level to a higher altitude, the ideal gas law (PV=nRT) is applied. The initial and final volumes (V1 and V2) are determined using the pressure and temperature at both altitudes. The percentage change formula, which is (V2-V1)/V1, is confirmed to be unitless since it is a ratio. Concerns about unit consistency in the volume calculation are addressed, emphasizing the need to include n and R in the ideal gas law for accurate unit analysis. Understanding these concepts is crucial for exam preparation.
chantalprince
Messages
54
Reaction score
0

Homework Statement



A child holding a helium filled balloon @ sea level (T= 20 C) let's go of the string. The balloon rises freely several thousand meters, where T = 5 C and P = 0.70 atm. Find the percentage change in the balloon's volume.


Homework Equations



PV = nRT

percentage change = amount of change (amt change = V2-V1)/ original amount (V1)

The Attempt at a Solution



Is my reasoning correct on this one? Since n and R don't change with altitude, temperature or volume, I solved for volume: V = P/T Then I solved for V1 and V2. Lastly used the above % change equation.

The only thing that is bothering me about my method is that I'm not sure how the units work out for the volume equation I posted. I guess I am figuring it jut works out (?) But, I really need to understand it for exams :wink: I see no other way to work this problem. Also- is the % change formula correct?

Thanks.
 
Physics news on Phys.org
Looks good to me.

Units? Try working them out.
 
V = P/T

m^3 or liters = Pa or (N/m^2) / (C)

I'm still don't understand how it works out. Do you mean work it out with the n and R included?
 
When you are calculating percent change in volume, that is a ratio and there are no units; they cancel out.

However, when working out the units in the ideal gas law, you will need to include nR, (or Nk):

PV=NkT=nRT
 
Thank you BF.
 
Thread 'Collision of a bullet on a rod-string system: query'

Thread 'Collision of a bullet on a rod-string system: query'

In this question, I have a question. I am NOT trying to solve it, but it is just a conceptual question. Consider the point on the rod, which connects the string and the rod. My question: just before and after the collision, is ANGULAR momentum CONSERVED about this point? Lets call the point which connects the string and rod as P. Why am I asking this? : it is clear from the scenario that the point of concern, which connects the string and the rod, moves in a circular path due to the string...
View full post »

Similar threads

How Does Balloon Volume Change During Ocean Descents?
Replies
3
Views
2K
Entropy Change Confusion
Replies
7
Views
862
How Do You Calculate the New Density of Kr in a Balloon?
2
Replies
84
Views
7K
Moles of gas helium balloon; buoyancy; PV=nRT
Replies
3
Views
8K
Finding the pressure of a gas in three identical balloons
Replies
12
Views
2K
How Is Work Calculated for a Gas and Balloon in Isothermal Expansion?
Replies
11
Views
4K
Fill Balloons Homework: Max # People for Bday Party Balloon
Replies
4
Views
5K
Work Done by Gas in Isothermal Expansion of Balloon
Replies
5
Views
7K
Calculate how high balloon rises before stopping
Replies
8
Views
12K
Trouble solving for end state of two control volumes in a rigid tank
Replies
12
Views
2K

Hot Threads

Recent Insights

Back
Top