Question

Use the properties of the derivative to find the following: r(t) = ti + 5tj + t²k, u(t) = 4ti + t²j + t³k. Find r'(t).

Answer 1

The derivative r'(t), which represents the velocity, is found by taking the time derivative of each component of the position function r(t) = ti + 5tj + t²k, resulting in r'(t) = i + 5j + 2tk.

Step-by-step explanation:

To find the derivative r'(t), the position function r(t) = ti + 5tj + t²k is given. The derivative of the position function with respect to time, t, will give us the velocity function.

The position function r(t) can be written as:

• x(t) = t
• y(t) = 5t
• z(t) = t²

Now, taking the derivative of each component with respect to time, we have:

• x'(t) = dx(t)/dt = 1
• y'(t) = dy(t)/dt = 5
• z'(t) = dz(t)/dt = 2t

Thus, the velocity function r'(t) will be:

r'(t) = x'(t)i + y'(t)j + z'(t)k = i + 5j + 2tk.

This is the functional form of the velocity for the particle at any moment t.