Particle Position and Time: Solving for Velocity and Acceleration

AI Thread Summary
The discussion focuses on solving a particle's motion along the x-axis, defined by the equation x = ct² - bt³, where participants analyze the dimensions and units for constants c and b, concluding that c has units of m/s² and b has units of m/s³. Participants engage in calculating the particle's maximum position, distance covered in the first 4 seconds, and its velocity and acceleration at various time points. The derivative dx/dt is correctly identified as 2ct - 3bt², which is set to zero to find the maximum position. The conversation emphasizes understanding the application of derivatives in motion equations and correcting initial misunderstandings about the coefficients and their implications.
Richard C.
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Homework Statement


he position of a particle moving along the x-axis depends on the time according to the equation x = ct2 - bt3, where x is in meters and t in seconds.

(a) What dimension and units must c have?
m/s2
s2/m
m2/s
s/m2


What dimension and units must b have?
s/m3
m3/s
s3/m
m/s3


For the following, let the numerical values of c and b be 3.2 and 1.0 respectively.

(b) At what time does the particle reach its maximum positive x position?


(c) What distance does the particle cover in the first 4.0 s?


(d) What is its displacement from t = 0 to t = 4.0 s?


(e) What is its velocity at t = 1.0?

What is its velocity at t = 2.0?

What is its velocity at t = 3.0?

What is its velocity at t = 4.0 s?


(f) What is its acceleration at at t = 1.0 s?

What is its acceleration at at t = 2.0 s?

What is its acceleration at at t = 3.0 s?

What is its acceleration at at t = 4.0 s?



Homework Equations



I know that in the bold are correct. Unless of course I'm proven to be wrong on this of course.

So, that seems to use the grand dx/dt for (b) unless I'm incorrect. Though, I'm not sure entirely.

So, it would be as such unless I'm mistaken.

v = dx / dt = [(3)*35 + (2) 1]=0

Though, something tells me that I may be incorrect, if so can you please explain why in details. (Sorry to be demanding.) I feel it has to do with the coefficient.
 
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For a) your 1st answer is incorrect, but the second is correct, assuming the numbers 2 and 3 are exponents.

For b), yes, set dx/dt = 0 and solve for t; I don't understand your answer.

x = ct2 - bt3

\frac{dx}{dt} = 2ct - 3bt2 = 0,

etc.
 
edziura said:
For a) your 1st answer is incorrect, but the second is correct, assuming the numbers 2 and 3 are exponents.

For b), yes, set dx/dt = 0 and solve for t; I don't understand your answer.

x = ct2 - bt3

\frac{dx}{dt} = 2ct - 3bt2 = 0,

etc.

I noticed that I made a mistake and its m/s^2. Thanks for that, though.

Ahh, I noticed I have to move the coefficient down and lessen it by one for the reminder. I presume you would then just fill in with the two numbers given. Am I doing this wrong so far?

Next you would get two derivatives, right?

So it would be a quadratic function, though am I missing anything?
 
Richard C. said:
I noticed that I made a mistake and its m/s^2. Thanks for that, though.

Ahh, I noticed I have to move the coefficient down and lessen it by one for the reminder. I presume you would then just fill in with the two numbers given. Am I doing this wrong so far?

That's correct.

Next you would get two derivatives, right?

I don't understand your question.
 
edziura said:
I don't understand your question.

Sorry.

Once you get: dx/dt=2(3.2)t-3(1)t^2=0 you would then find the derivative, right or not? Which would be a quadratic function. If so you would then solve that.
 
Richard C. said:
Sorry.

Once you get: dx/dt=2(3.2)t-3(1)t^2=0 you would then find the derivative, right or not? Which would be a quadratic function. If so you would then solve that.

dx/dt=2(3.2)t-3(1)t^2 is the derivative. Set it = to 0 and solve.
 

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