Find the differential dy for the function f(x) = x^e · tan−1 (x/3) .

A)For the function below, write the differential. f(x) = ln(1 + x2) dy =( )dx B)calculate...

A)For the function below, write the differential. f(x) = ln(1 + x2) dy =( )dx B)calculate dy for the given values of x and dx. x = 2 and dx = 0.2 dy =   C)how accurate is dy in approximating Δy (i.e., what is their difference) to the nearest thousandth?

1. Compare the values of dy and Δy for the function. Function      x-Value      Differential...

1. Compare the values of dy and Δy for the function. Function      x-Value      Differential of x f(x) = 5x + 1      x = 1      Δx = dx = 0.01 dy = Δy = 2. Use differentials to approximate the change in profit corresponding to an increase in sales (or production) of one unit. Then compare this with the actual change in profit. Function      x-Value P = −0.2x3 + 800x − 80      x = 40...

1. Find the differential of f(x,y)=\sqrt{x + e^{4y}}f(x,y)= x+e^4y and use it to find the approximate...

1. Find the differential of f(x,y)=\sqrt{x + e^{4y}}f(x,y)= x+e^4y and use it to find the approximate change in the function f(x,y)f(x,y) as (x,y)(x,y) changes from (3,0)(3,0) to (2.6,0.1)(2.6,0.1).

Find the directional derivative of the function  f (x, y) = tan−1(xy)   at the point (1, ...

Find the directional derivative of the function  f (x, y) = tan−1(xy)   at the point (1, 3) in the direction of the unit vector parallel to the vector v = 4i + j.

Find dy/dx by implicit differentiation. tan−1(3x2y) = x + 4xy2

Find dy/dx by implicit differentiation. tan−1(3x2y) = x + 4xy2

1.Given that y = x + tan−1 y , find dy dx 2.Determine the equation of...

1.Given that y = x + tan−1 y , find dy dx 2.Determine the equation of the tangent line to the curve y = (2 + x) e −x at the point (0, 2)

Use this equation to find dy/dx. 8 tan−1(x2y) = x + xy2

Use this equation to find dy/dx. 8 tan−1(x2y) = x + xy2

1) Solve the given differential equation by separation of variables. exy dy/dx = e−y + e−6x...

1) Solve the given differential equation by separation of variables. exy dy/dx = e−y + e−6x − y 2) Solve the given differential equation by separation of variables. y ln(x) dx/dy = (y+1/x)^2 3) Find an explicit solution of the given initial-value problem. dx/dt = 7(x2 + 1),  x( π/4)= 1

3. Consider the differential equation: x dy/dx = y^2 − y (a) Find all solutions to...

3. Consider the differential equation: x dy/dx = y^2 − y (a) Find all solutions to the differential equation. (b) Find the solution that contains the point (−1,1) (c) Find the solution that contains the point (−2,0) (d) Find the solution that contains the point (1/2,1/2) (e) Find the solution that contains the point (2,1/4)

differentiate. a. e^xtan(x) b. sin(1/sqrtx) c. ln(e^x/sqrt(x^2)+3) d. subscriptx tan(x) e. f(secx) where f'(x)= x/ln(x)

differentiate. a. e^xtan(x) b. sin(1/sqrtx) c. ln(e^x/sqrt(x^2)+3) d. subscriptx tan(x) e. f(secx) where f'(x)= x/ln(x)