using the increment method or four step rule solve for: Given s=sqrt of t-2, find ds/dt

using the increment method or four step rule solve for : (ax+b)^2

using the increment method or four step rule solve for : (ax+b)^2

using the increment method or four step rule solve for : y=(x^3-3x^2+3x-1)^1/3

using the increment method or four step rule solve for : y=(x^3-3x^2+3x-1)^1/3

using increment method or 4 step rule solve for: y= x-2/x-3 , when x=6

using increment method or 4 step rule solve for: y= x-2/x-3 , when x=6

Use the Chain Rule to find dz/dt. (Enter your answer only in terms of t.) z=sqrt(1+x^2+y^2),...

Use the Chain Rule to find dz/dt. (Enter your answer only in terms of t.) z=sqrt(1+x^2+y^2), x=ln(t), y=cos(t) dz/dt=

Solve for the mass density of the string using the equation ? = sqrt T /...

Solve for the mass density of the string using the equation ? = sqrt T / µ. Use the experimental slope = (1/µ) = 1270.826 kg/m to find the actual value of µ. If needed: v = 26.4 m/s T = 0.4905 (kg)(m/s^2) Please explain how you found µ by providing each equation/step taking in order to solve for µ. Include algebra as well and thank you!

1. If f(x) = ∫10/x t^3 dt then: f′(x)= ? and f′(6)= ? 2. If f(x)=∫x^2/1...

1. If f(x) = ∫10/x t^3 dt then: f′(x)= ? and f′(6)= ? 2. If f(x)=∫x^2/1 t^3dt t then f′(x)= ? 3. If f(x)=∫x3/−4 sqrt(t^2+2)dt then f′(x)= ? 4. Use part I of the Fundamental Theorem of Calculus to find the derivative of h(x)=∫sin(x)/−2 (cos(t^3)+t)dt. what is h′(x)= ? 5. Find the derivative of the following function: F(x)=∫1/sqrt(x) s^2/ (1+ 5s^4) ds using the appropriate form of the Fundamental Theorem of Calculus. F′(x)= ? 6. Find the definitive integral: ∫8/5...

Use the Chain Rule to find the indicated partial derivatives. u =sqrt( r^2 + s^2) ,...

Use the Chain Rule to find the indicated partial derivatives. u =sqrt( r^2 + s^2) , r = y + x cos(t), s = x + y sin(t) ∂u ∂x , ∂u ∂y , ∂u ∂t when x = 1, y = 4, t = 0

Given : dy/dt = -100000y + 99999 e^(-t) a. If y(0)=0 use the explicit Euler method...

Given : dy/dt = -100000y + 99999 e^(-t) a. If y(0)=0 use the explicit Euler method to obtain a solution using a step size of 0.1. Carry out 2 iterations. What do you notice? b. Estimate the minimum step size required to maintain stability using the explicit Euler method. b. Repeat the problem using the implicit Euler method to obtain a solution from t=0 to 2 using a step size of 0.1.

1.express dw/dt as a function of t, both by using the Chain Rule and by expressing...

1.express dw/dt as a function of t, both by using the Chain Rule and by expressing w in terms of t and differentiating directly with respect to t. Then evaluate dw/dt at the given value of t. a)w= -6x^2-10x^2 , x=cos t,y=sint, t=pi/4 b)w=4x^2y-4y^2x, x=cost y=sint, --> express n terms of t 2.Find the linearization L(x,y) of the function (x,y)=e^x cos(9y) at points (0,0) and (0,pi/2)

Find dw/dt using the appropriate chain rule for w=x^2+y^2+z^2 where x=8tsin(s), y=8tcos(s) and z=5st^2

Find dw/dt using the appropriate chain rule for w=x^2+y^2+z^2 where x=8tsin(s), y=8tcos(s) and z=5st^2