Compute the Bohr Summerfeld quantization given a potential equal to -Vo*cos(4*pi*x/L)

let f(x)=cos(x). Use the Taylor polynomial of degree 4 centered at a=0 to approximate f(pi/4)

let f(x)=cos(x). Use the Taylor polynomial of degree 4 centered at a=0 to approximate f(pi/4)

find g'(x) g(x)= integral (-3/4 + t + cos(Pi/4 (t^2) + t))) 0<x<3

find g'(x) g(x)= integral (-3/4 + t + cos(Pi/4 (t^2) + t))) 0<x<3

Problem 15: Find the taylor series for f (x) = cos (2x) around x = pi/4,...

Problem 15: Find the taylor series for f (x) = cos (2x) around x = pi/4, and find its interval and radius of convergence.

Solve the initial value problem. f '(x) = cos(x) + sec2(x), f (PI/4)=7+((sqrt2)/2) f(x) = _______

Solve the initial value problem. f '(x) = cos(x) + sec2(x), f (PI/4)=7+((sqrt2)/2) f(x) = _______

Let h be the function defined by H(x)= integral pi/4 to x (sin^2(t))dt. Which of the...

Let h be the function defined by H(x)= integral pi/4 to x (sin^2(t))dt. Which of the following is an equation for the line tangent to the graph of h at the point where x= pi/4. The function is given by H(x)= integral 1.1 to x (2+ 2ln( ln(t) ) - ( ln(t) )^2)dt for (1.1 < or = x < or = 7). On what intervals, if any, is h increasing? What is a left Riemann sum approximation of integral...

Find the length of the curve 1) x=2sin t+2t, y=2cos t, 0≤t≤pi 2) x=6 cos t,...

Find the length of the curve 1) x=2sin t+2t, y=2cos t, 0≤t≤pi 2) x=6 cos t, y=6 sin t, 0≤t≤pi 3) x=7sin t- 7t cos t, y=7cos t+ 7 t sin t, 0≤t≤pi/4

Given PI at 9 + 71.83, Δ = 7°10′, and D = 8 degrees, compute the...

Given PI at 9 + 71.83, Δ = 7°10′, and D = 8 degrees, compute the tangent (T ) and the length of arc (L), compute the stationing of the BC and EC.

find the explicit particular solution of the initial value problem 2*x^1/2(dy/dx)=(cos^2)*y y(4)=pi/4 differntial equations

find the explicit particular solution of the initial value problem 2*x^1/2(dy/dx)=(cos^2)*y y(4)=pi/4 differntial equations

The motion of a particle connected to a spring is described by x = 0.4 cos...

The motion of a particle connected to a spring is described by x = 0.4 cos (pi t) (in meter). a) What is its angular frequency and amplitude (maximum elongation) xmax? b) What is its speed and acceleration at t = 0.167s? c) At what time is the potential energy equal to the kinetic energy?

given the polar curve r = 2(1+cos theta) find the Cartesian coordinates (x,y) of the point...

given the polar curve r = 2(1+cos theta) find the Cartesian coordinates (x,y) of the point of the curve when theta = pi/2 and find the slope of the tangent line to this polar curve at theta = pi/2