use the intermediate value theorum to show that the following functiom has a root. f(x)= tan(x)+x-1...

1. Use the Intermediate Value Theorem to show that f(x)=x3+4x2-10 has a real root in the...

1. Use the Intermediate Value Theorem to show that f(x)=x3+4x2-10 has a real root in the interval [1,2]. Then, preform two steps of Bisection method with this interval to find P2.

Use the intermediate value theorem to show that there is a root of the given equation...

Use the intermediate value theorem to show that there is a root of the given equation in the specified interval 1. X^4 + x - 3= 0, (1,2)

Use intermediate theorem to show that theer is a root of f(x)=-e^x+3-2x in the interval (0,...

Use intermediate theorem to show that theer is a root of f(x)=-e^x+3-2x in the interval (0, 1)

use the squeeze theorum to show that *** please show work limx→0 cos(x)x^8 sin(1/x)=0 limx→0 tan(x)x^4...

use the squeeze theorum to show that *** please show work limx→0 cos(x)x^8 sin(1/x)=0 limx→0 tan(x)x^4 cos(2/x)=0

4. Given the function f(x)=x^5+x-1, which of the following is true? The Intermediate Value Theorem implies...

4. Given the function f(x)=x^5+x-1, which of the following is true? The Intermediate Value Theorem implies that f'(x)=1 at some point in the interval (0,1). The Mean Value Theorem implies that f(x) has a root in the interval (0,1). The Mean Value Theorem implies that there is a horizontal tangent line to the graph of f(x) at some point in the interval (0,1). The Intermediate Value Theorem does not apply to f(x) on the interval [0,1]. The Intermediate Value Theorem...

Suppose f(x)=x6+3x+1f(x)=x6+3x+1. In this problem, we will show that ff has exactly one root (or zero)...

Suppose f(x)=x6+3x+1f(x)=x6+3x+1. In this problem, we will show that ff has exactly one root (or zero) in the interval [−4,−1][−4,−1]. (a) First, we show that f has a root in the interval (−4,−1)(−4,−1). Since f is a SELECT ONE!!!! (continuous) (differentiable) (polynomial)   function on the interval [−4,−1] and f(−4)= ____?!!!!!!! the graph of y=f(x)y must cross the xx-axis at some point in the interval (−4,−1) by the SELECT ONE!!!!!! (intermediate value theorem) (mean value theorem) (squeeze theorem) (Rolle's theorem) .Thus, ff...

Let f(x) = x^3 + x - 4 a. Show that f(x) has a root on...

Let f(x) = x^3 + x - 4 a. Show that f(x) has a root on the interval [1,4] b. Find the first three iterations of the bisection method on f on this interval c. Find a bound for the number of iterations needed of bisection to approximate the root to within 10^-4

A) Prove the trigonometric identity (tan x + 2)^2 = sec^2 x + 4 tan x...

A) Prove the trigonometric identity (tan x + 2)^2 = sec^2 x + 4 tan x + 3 B) Use a sum-to-product identities to show that cos(x + y) cos x cos y = 1 − tan x tan y. C) Write the product as a sum Sin12xSin4x

Use the Intermediate Value Theorem to show that the function has at least one zero in...

Use the Intermediate Value Theorem to show that the function has at least one zero in the interval [a, b]. (You do not have to approximate the zero.) f(x) = x5 − 8x + 3,     [−2, −1] f(-2)= f(-1)= Because f(−2) is ??? positive negative and f(−1) is  ??? positive negative , the function has a zero in the interval [−2, −1].

1. Find the Taylor polynomial, degree 4, T4, about 1/2 for f (x) = tan-inv (x)...

1. Find the Taylor polynomial, degree 4, T4, about 1/2 for f (x) = tan-inv (x) and use it to approximate tan-inv (1/16). 2. Find the taylor polynomial, degree 4, S4, about 0 for f (x) = tan-inv (x) and use it to approximate tan-inv (1/16). 3. who provides the best approximation, S4 or T4? Prove it.