Problems about calculating acceleration,velocity

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AI Thread Summary
The discussion focuses on calculating velocity and acceleration for a car moving along a curvilinear road, given its acceleration formula a = 0.5*e^t m/s². Participants emphasize the need to use calculus, specifically integration, to derive velocity and distance from the provided acceleration. The importance of initial conditions, such as the car's starting position and velocity, is highlighted, as these affect the constants in the equations. There is uncertainty about the car's initial position, which complicates the calculations. Overall, understanding the relationship between tangential and centripetal acceleration is crucial for solving the problem.
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Homework Statement



A car, as shown in the figure, is going in a curvilinear road. The size of the car will be neglected.

Homework Equations



Its acceleration is a = 0.5*e^t m/s^2.

The Attempt at a Solution



If it goes 18 meters on its way, then calculate its velocity and acceleration.

I have one more question. A particle is making linear action. Its velocity in the origin is 4 m/s. If particle is slowing down with acceleration a = -3/2*v^1/2 m/s^2, calculate the elapse time and its taking way until it stops(v=0).

Hope I could explain my questions clearly. How can I calculate them? Please help me.
 

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acelya said:
Its acceleration is a = 0.5*e^t m/s^2.
I assume that is the tangential acceleration.

If it goes 18 meters on its way, then calculate its velocity and acceleration.
Given acceleration, how do you find velocity and distance?
 
Yes, that is the tangential acceleration.

I don't know how can I find their values, bacause it is going on a curvilinear road and there is a p value (you can see in the figure) p=30m. I must use this value of p.
 
acelya said:
Yes, that is the tangential acceleration.

I don't know how can I find their values, bacause it is going on a curvilinear road and there is a p value (you can see in the figure) p=30m. I must use this value of p.
You'll use the radius to find the centripetal component of the acceleration.

But first things first. How can you find the velocity and distance, given the tangential acceleration? Hint: Calculus.
 
I must use the integral. Distance velocity v=0.5e^t+c1 and distance x=0.5e^t+c1t+c2 (c1,c2 constant values). But then, it is going 18 meters on the road.
 
acelya said:
I must use the integral. Distance velocity v=0.5e^t+c1 and distance x=0.5e^t+c1t+c2 (c1,c2 constant values). But then, it is going 18 meters on the road.
Good. What are c1 and c2? (Those depend on the initial conditions.)
 
But I don't know where the car was on the road firstly. If at t=0, it was in origin, then c1=-0,5 , c2=0. But, this question don't tell us it was in the origin at first.
 
acelya said:
But I don't know where the car was on the road firstly. If at t=0, it was in origin, then c1=-0,5 , c2=0. But, this question don't tell us it was in the origin at first.
You have to know the initial velocity and position or be able to make reasonable assumptions. That it starts from rest and at x = 0 seems reasonable. How did you get c2 = 0?
 

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