Final answer:
The average velocity over 0 ≤ t ≤ 4 is 2 m/s. The particle's velocity function is v(t) = 3 + 8t - 3t^2, and at t = 2, v is 7 m/s meaning the particle is moving to the right. The particle changes direction at t = 0, t = 2, and t = 4, and at t = 4, the speed is decreasing due to negative acceleration.
Step-by-step explanation:
To answer a student's question about the motion of a particle along a straight line with the position function s(t) = 3t + 4t^2 - t^3 for 0 ≤ t ≤ 5:
- Average velocity over the interval 0 ≤ t ≤ 4:
To find the average velocity, we use the formula:
average velocity = (s(4) - s(0)) / (4 - 0)
Plugging in the position function:
average velocity = (3(4) + 4(4)^2 - (4)^3 - (3(0) + 4(0)^2 - (0)^3)) / 4
Calculating this gives an average velocity of 2 m/s. - Velocity as a function of time, v(t):
The velocity function is the derivative of the position function:
v(t) = s'(t) = 3 + 8t - 3t^2
The value of v at t = 2 is:
v(2) = 3 + 8(2) - 3(2)^2
v(2) = 3 + 16 - 12
v(2) = 7 m/s
The positive value indicates the particle is traveling to the right. - Times when the particle changes direction:
To find when the particle changes direction, we set the velocity function equal to zero and solve for t in the interval 0 ≤ t ≤ 5. The particle changes direction when the velocity changes sign, which occurs at t = 0, t = 2, and t = 4. - At t = 4, we check if the speed of the particle is increasing or decreasing by finding the acceleration and assessing its sign:
a(t) = v'(t) = 8 - 6t
a(4) = 8 - 6(4)
a(4) = 8 - 24
a(4) = -16 m/s^2
The negative acceleration means the speed is decreasing.