- #36
anolan23
- 47
- 3
The MV/RT equation doesn't compute to that value, unless it's (2.54)^2 instead of 2.54^3 for the conversion of the volume
I'll try to dig out my notes to check on the algebra. I don't have it to go through this from scratch again.anolan23 said:The MV/RT equation doesn't compute to that value, unless it's (2.54)^2 instead of 2.54^3 for the conversion of the volume
I confirm the arithmetic error you identified. Are there any other errors that you have identified? Otherwise the 0.63 seconds should be 2.54 times as large. So the 0.8 sec. would be a little larger, and the 3 psi would be a little larger.anolan23 said:Are there some errors in the numbers you put in the above equations? If so, I think you may be human.
I had solved the equation numerically on a spread sheet. I no longer have the spread sheet file.anolan23 said:I tried to solve the integral through SMath, but when calculating the Constant at the initial condition p(0), it says it cannot solve for C because there are no real roots.
http://imgur.com/a/mxSeB
It is not necessary to specify a value. See post #31.anolan23 said:what value should I use for μ, air viscosity?
Do the first two time steps by hand, and show me the work please.anolan23 said:http://imgur.com/a/IfYvT
Chestermiller,
I'm doing the Forward Euler to estimate the solution, but when calculating the first solution it's making me take the square root of a negative number. Did you have this problem?
Isn't 0.63 times 2.54 equal to 1.6?anolan23 said:Nvm I made an error. It calculates out.
I adjusted the SQRT(0.63) that you calculated and it comes out to be SQRT(0.1608).
I thought you said that the rate of pressure rise was 15 psi/sec. Anyhow, if it were 95 psi/sec, wouldn't that mean that the pressure outside was 110 psi after 1 sec?Attached is my numerical solution to the dp/dt equation. IT doesn't make sense that the pressure inside the container is already at 100psi at 1 sec since the rate of increase of pressure is 95 psi/sec. The last sheet is where I did it.