Analyzing Motion Using Graphs

Question

[Technology Exercise] Exercises 31–34 give the position function s = f(t) of an object moving along the s-axis as a function of time t. Graph f together with the velocity function v(t) = ds/dt = f'(t) and the acceleration function a(t) = d²s/dt² = f''(t). Comment on the object’s behavior in relation to the signs and values of v and a. Include in your commentary such topics as the following:

d. When does it speed up and slow down?

s = t³ - 6t² + 7t, 0 ≤ t ≤ 4

Accepted Answer

Welcome back, everyone. A rocket is launched vertically up and its height above the ground is given by the function H of T equals 400 C minus 50 T2 where H is in meters and T is in seconds. The graph below shows H of T along. With its velocity function B of T and the acceleration function A of T, for the time interval between 0 and 8 seconds inclusive, using the graph determine the time intervals when the rocket speeds up and slows down. So whenever we want to understand the context of a problem in which we're analyzing, speeding up and slowing down, we have to analyze two functions, one of them being velocity and the other one being acceleration. Let's begin with the velocity function. As we can see from the given graph, our velocity function DH divided by DC. Is positive, meaning it is above the T axis. For time values between 0 and 4 seconds. That's because we have an intercept at t equals 4, so we can conclude that velocity is greater than 0 if time is between 0 inclusive and 4 not inclusive. Also, we can see that velocity is negative. If our line is below the T axis, this means for time values above 4, but less than or equal to 8, right? So time must be. Less actually greater than 4. And less than or equal to 8. This is when velocity is negative. Now, let's focus on the acceleration function. Our acceleration function is the second derivative of each with respect to time, which is always negative. It is a horizontal line which is -100. Independent of T, right? So A is always negative. This means that within the whole domain of time being between 0 and 8 inclusive. And now knowing all of this information, we can answer the question, so it speeds up. Now let's recall the condition. We want to ensure that our velocity and acceleration has the same sign. We can begin with acceleration. If acceleration is negative, then velocity must have the same sign, so velocity must be negative as well. Right? And we have a negative velocity for time between 4 and 8. So basically it speeds up. When time is between 4. And 8 seconds, so 4 not inclusive and 8 inclusive. Now it slows down. When velocity and acceleration have opposite signs, our acceleration is always negative. This means that we're looking for a positive velocity. When is this the case? Well, our velocity is positive if time is greater than or equal to 0 but less than 4 seconds, and those be our answers. So it speeds up when time is between 4, not inclusive and 8 inclusive and slows down when time is between 0. Inclusive and for not inclusive. All of those are given in seconds. Thank you for watching.

Key Concepts

Position, Velocity, and Acceleration

Graphical Analysis of Derivatives

Interpreting Signs of Velocity and Acceleration

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