Show that the function  has a unique fixed point in the interval . g(x)=(3x+19)^1/3 [0,infinite]

4. For the function g(x)= 3x+3 /x2-3x-4, find any x-values where g is discontinuous. Identify each...

4. For the function g(x)= 3x+3 /x2-3x-4, find any x-values where g is discontinuous. Identify each discontinuity as a jump, removable (point), or infinite discontinuity. Kindly show all working. 5. Find y'. y=3x2-14x+42. Kindly show all working. 6. Find h'(x). h(x)=tan (pi x2). Kindly show all working.

(a) Show that the function g: (0,1)→(0,∞)with g(x) =(1−x)/x is a bijection (b)Show that the natural...

(a) Show that the function g: (0,1)→(0,∞)with g(x) =(1−x)/x is a bijection (b)Show that the natural logarithm ln: (0,∞)→R is a bijection (c) Show that R has the same cardinality as the interval (0,1)

Use the cobweb diagram to show that the map f(x) =e^-x has a unique fixed point....

Use the cobweb diagram to show that the map f(x) =e^-x has a unique fixed point. Also determine the stability character of the fixed point from the diagram.

1.) Suppose g(x) = x2− 3x. On the interval [0, 4], use calculus to identify x-coordinate...

1.) Suppose g(x) = x2− 3x. On the interval [0, 4], use calculus to identify x-coordinate of each local / global minimum / maximum value of g(x). 2.) For the function f(x) = x 4 − x 3 + 7... a.) Show that the critical points are at x = 0 and x = 3/4 (Plug these into the derivative, what you get should tell you that they are critical points). b.) Identify all intervals where f(x) is increasing c.)...

1. At x = 1, the function g( x ) = 5x ln(x) − 3x is...

1. At x = 1, the function g( x ) = 5x ln(x) − 3x is . . . Group of answer choices has a critical point and is concave up decreasing and concave up decreasing and concave down increasing and concave up increasing and concave down 2. The maximum value of the function f ( x ) = 5xe^−2x over the domain [ 0 , 2 ] is y = … Group of answer choices 10/e 0 5/2e e^2/5...

Compute the directional derivative of the function f(x,y)=(√1+3x^2+8y^2) at the point (0,−3) in the direction of...

Compute the directional derivative of the function f(x,y)=(√1+3x^2+8y^2) at the point (0,−3) in the direction of the vector →v=2ˆi−3ˆj. Enter an exact answer involving radicals as necessary.   

Consider the function g(x) = |3x + 4|. (a) Is the function differentiable at x =...

Consider the function g(x) = |3x + 4|. (a) Is the function differentiable at x = 10? Find out using ARCs. If it is not differentiable there, you do not have to do anything else. If it is differentiable, write down the equation of the tangent line thru (10, g(10)). (b) Graph the function. Can you spot a point “a” such that the tangent line through (a, f(a)) does not exist? If yes, show using ARCS that g(x) is not...

Consider the function g (x) = 12x + 4 - cos x. Given g (x) =...

Consider the function g (x) = 12x + 4 - cos x. Given g (x) = 0 has a unique solution x = b in the interval (−1/2, 0), and you can use this without justification. (a) Show that Newton's method of starting point x0 = 0 gives a number sequence with b <··· <xn+1 <xn <··· <x1 <x0 = 0 (The word "curvature" should be included in the argument!) (b) Calculate x1 and x2. Use theorem 2 in section...

Consider the function g (x) = 12x + 4 - cos x. Given g (x) =...

Consider the function g (x) = 12x + 4 - cos x. Given g (x) = 0 has a unique solution x = b in the interval (−1/2, 0), and you can use this without justification. (a) Show that Newton's method of starting point x0 = 0 gives a number sequence with b <··· <xn+1 <xn <··· <x1 <x0 = 0 (The word "curvature" should be included in the argument!) (b) Calculate x1 and x2. Use theorem 2 in section...

Consider the function g (x) = 12x + 4 - cos x. Given g (x) =...

Consider the function g (x) = 12x + 4 - cos x. Given g (x) = 0 has a unique solution x = b in the interval (−1/2, 0), and you can use this without justification. (a) Show that Newton's method of starting point x0 = 0 gives a number sequence with b <··· <xn+1 <xn <··· <x1 <x0 = 0 (The word "curvature" should be included in the argument!) (b) Calculate x1 and x2. Use theorem 2 in section...