Suppose f(x) = (e2x + 5x − 1)4 measures the position of an object at time...

Let f (x) = (5x − 1 )/(x+ 7) . Find f ' (x). First set...

Let f (x) = (5x − 1 )/(x+ 7) . Find f ' (x). First set up the limits and simplify the first one. Using equation (6) from Section 3.1 f'(x) = lim t→x   (simplify; no complex fraction). Using equation (2) from Section 3.2 f'(x) = lim h→0   (do not simplify). f'(x) =

1. Let f(x)=−x^2+13x+4 a.Find the derivative f '(x) b. Find f '(−3) 2. Let f(x)=2x^2−4x+7/5x^2+5x−9, evaluate...

1. Let f(x)=−x^2+13x+4 a.Find the derivative f '(x) b. Find f '(−3) 2. Let f(x)=2x^2−4x+7/5x^2+5x−9, evaluate f '(x) at x=3 rounded to 2 decimal places. f '(3)= 3. Let f(x)=(x^3+4x+2)(160−5x) find f ′(x). f '(x)= 4. Find the derivative of the function f(x)=√x−5/x^4 f '(x)= 5. Find the derivative of the function f(x)=2x−5/3x−3 f '(x)= 6. Find the derivative of the function g(x)=(x^4−5x^2+5x+4)(x^3−4x^2−1). You do not have to simplify your answer. g '(x)= 7. Let f(x)=(−x^2+x+3)^5 a. Find the derivative....

The initial position of an object is x=95 m. The initial velocity is v=24 m/s. Given...

The initial position of an object is x=95 m. The initial velocity is v=24 m/s. Given that acceleration is given by a(t) = -4t +1. What is the maximum value of x and v? At what times do they occur?

The position of an object at time t is given by: r(t)=e^−t i + e^t j...

The position of an object at time t is given by: r(t)=e^−t i + e^t j − t√2 k, 0≤ t<∞. (a) Determine the velocity v and the speed of the object at time t. (b) Determine the acceleration of the object at time t. (c) Find the distance that the object travels during the time interval 0≤ t<ln3. Answers: (a) = velocity: v =−e^−t i + e^t j − √2 k; speed: ||v||= e^t + e^−t, (b) = acceleration:...

a. *Find all solutions to the equation cos(5x – 3) = ½ . b. *The position,...

a. *Find all solutions to the equation cos(5x – 3) = ½ . b. *The position, p, of an object in meters after t seconds is given by: pt=23-4t+((t^2)/20) .      Estimate (to the nearest 0.01 m/sec) the object’s average velocity over the time interval [0,50]? c. If x=2 square root (x)+9/x+x/5 , then find f ‘(x).

Suppose that f is a differentiable function and define g(x)=e^(2*f(x)+5x). Suppose that f(-2) = 1 and...

Suppose that f is a differentiable function and define g(x)=e^(2*f(x)+5x). Suppose that f(-2) = 1 and f ' (-2) = 2. Find g ' (-2).

(a) Find the most general antiderivative of the function f(x) = −x^ −1 + 5√ x...

(a) Find the most general antiderivative of the function f(x) = −x^ −1 + 5√ x / x 2 −=4 csc^2 x (b) A particle is moving with the given data, where a(t) is acceleration, v(t) is velocity and s(t) is position. Find the position function s(t) of the particle. a(t) = 12t^ 2 − 4, v(0) = 3, s(0) = −1

An object is undergoing simple harmonic motion along the x-axis. its position is described as a...

An object is undergoing simple harmonic motion along the x-axis. its position is described as a function of time by x(t)= 5.3cos(4.2t-1.9), where x is in meters, the time t, is in seconds, and the argument of the cosine is in radians. c) determine the position of the object, in meters, at the time t=2.6s? d) what the objects velocity, in meters per second, at the time t=2.6s? e) calculate the objects acceleration, in meters per second squared, at time...

The position of an object in simple harmonic motion as a function of time is given...

The position of an object in simple harmonic motion as a function of time is given by ? = 3.8??? (5??/4 + ?/6) where t is in seconds and x in meters. In t = 2.0s calculate (a) the period, (b) the oscillation frequency (c) velocity and (d) acceleration.   

Position and Time The position of an object moving in a straight line is given by...

Position and Time The position of an object moving in a straight line is given by x = 5t - 8 t 2 + 6t 3, where x is in meters and t in seconds. (a) What is the position of the object at t = 1s? m What is the position of the object at t = 2?   m What is the position of the object at t = 3? m What is the position of the object at...