Lectures adapted from Professor Maria Tomassone, Rutgers University Problem from University of Iowa: user.engineerin... Fluid Mechanics 4th Ed., Frank White
Well, since you assumed continuity of the system, then you can said, mdot1 equals to mdot2 and solve the equation without looking for V in, unless it's demanded in the problem.
I was hoping to make it through the rest of the problem, and actually solve for the answer! I pray that you can answer my question I have for the very last step: How would I enter the velocity vector in the Fbolt equation? would I just treat it as a magnitude and square the velocities in the final step?
How do you know the direction of the force on the bolt before solving? I got Fbolts as -7408.76 N. Also, since there are 2 bolts, how do you account for that? Divide or multiply by 2?
Brian, you're a great teacher! Bless you
Amazing video thank you
Well, since you assumed continuity of the system, then you can said, mdot1 equals to mdot2 and solve the equation without looking for V in, unless it's demanded in the problem.
I was hoping to make it through the rest of the problem, and actually solve for the answer! I pray that you can answer my question I have for the very last step: How would I enter the velocity vector in the Fbolt equation? would I just treat it as a magnitude and square the velocities in the final step?
How did you know to choose B=mv?
How do you know the direction of the force on the bolt before solving? I got Fbolts as -7408.76 N. Also, since there are 2 bolts, how do you account for that? Divide or multiply by 2?
where is the answer bro
-7405 N net