It's hard to tell if you really do not understand what you are doing or if you are just saying it badly!
Remixex said:
Homework Statement
I stumbled upon a problem and i can't establish the ODE to solve it, from there on i believe i can solve the ODEs if they have regular analytical solving methods (translated from Spanish, will sound a bit weird)
Car race, 2 pilots (a and b) participate in a drag race. They begin their movement at rest and then accelerate at a constant rate.
Car b finishes the last quarter of the way in 3 seconds, car a finishes the last third of the way in 4 seconds
Who wins and by how long?
Secondary question, what does "constant rate of acceleration" mean?, Line with or without slope?
Acceleration of an object is a physics property and does not have anything to do with a graph so your "Line with or without slope?" makes no sense.
i believe it's with slope, or else we wouldn't need a differential equation, constant rate should mean constant derivative.
"constant acceleration" means that the velocity is changing at a constant rate. I'm surprised you did not know that.
Differential form of basic Kinematics equations
The Attempt at a Solution
So i get X(t) represents function of distance, X'(t) a function of velocity and X''(t) one of acceleration[,
I'm not sure whether you really do not understand or are just wording this incorrectly. X'(t) and X''(t) are both "functions of"
t- that's what the "(t)" means! What you mean to say, I think, is that X'(t)
is the velocity function and X''(t)
is the acceleration.
also we know that X(0)=0 (therefore zero velocity and acceleration at t=0) for both cars.
No. The fact that X(0)= 0 means that both cars
position at t= 0 is 0. That says nothing about their velocity or acceleration at t= 0.
"They begin their movement at rest"
tells you that the velocity is 0 at t= 0. The acceleration at t= 0 is certainly NOT 0. Your are told the acceleration is a constant and if that constant were 0 neither car would ever move!
I believe we need to establish 2 differential equations for each car? I'm not sure
Also, if they accelerate at a constant rate, X''(t) may have the form of mt+c
No, if they accelerate at a constant rate, X''(t) has the form "X''(t)= a" where a is that constant. Integratig, the velocity, X'(t)= at+ c.
To get X(t) for each car integrate that again.
(But you are NOT told that the constant integration is the same for both car so use different letters for the acceleration.