1. Find all solutions to sin(2(x − π)) = 0

1) In the interval [0,2π) find all the solutions possible (in radians ) : a) sin(x)=...

1) In the interval [0,2π) find all the solutions possible (in radians ) : a) sin(x)= √3/2 b) √3 cot(x)= -1 c) cos ^2 (x) =-cos(x) 2)The following exercises show a method of solving an equation of the form: sin( AxB C + ) = , for 0 ≤ x < 2π . Find ALL solutions . d) sin(3x) = - 1/2 e) sin(x + π/4) = - √2 /2 f) sin(x/2 - π/3) = 1/2

For the following exercises, find all exact solutions on [0, 2π) 23. sec(x)sin(x) − 2sin(x) =...

For the following exercises, find all exact solutions on [0, 2π) 23. sec(x)sin(x) − 2sin(x) = 0 25. 2cos^2 t + cos(t) = 1 31. 8sin^2 (x) + 6sin(x) + 1 = 0 32. 2cos(π/5 θ) = √3

1.Find all solutions on the interval [0, 2π) csc (2x)-9=0 2. Rewrite in terms of sin(x)...

1.Find all solutions on the interval [0, 2π) csc (2x)-9=0 2. Rewrite in terms of sin(x) and cos(x) Sin (x +11pi/6)

1. Calculate sin (x + y) when sin (x) = 0.20 (0 < x < π/2)...

1. Calculate sin (x + y) when sin (x) = 0.20 (0 < x < π/2) and sin (y) = 0.60 (π/2 < y< π) . 2. Find two vectors that have the same magnitude and are perpendicular to 3i + 5j 3. Two vectors are given by a = 3i + 2j and b = −i + 5j. Calculate the vector product of axb.

1. Find the area between the curve f(x)=sin^3(x)cos^2(x) and y=0 from 0 ≤ x ≤ π...

1. Find the area between the curve f(x)=sin^3(x)cos^2(x) and y=0 from 0 ≤ x ≤ π 2. Find the surface area of the function f(x)=x^3/6 + 1/2x from 1≤ x ≤ 2 when rotated about the x-axis.

Solve the following initial/boundary value problem: ∂u(t,x)/∂t = ∂^2u(t,x)/∂x^2 for t>0, 0<x<π, u(t,0)=u(t,π)=0 for t>0, u(0,x)=sin^2x...

Solve the following initial/boundary value problem: ∂u(t,x)/∂t = ∂^2u(t,x)/∂x^2 for t>0, 0<x<π, u(t,0)=u(t,π)=0 for t>0, u(0,x)=sin^2x for 0≤x≤ π. if you like, you can use/cite the solution of Fourier sine series of sin^2(x) on [0,pi] = 1/4-(1/4)cos(2x) please show all steps and work clearly so I can follow your logic and learn to solve similar ones myself.

The curves x = sin y and y = (x − 1)^2 + π/2 along with...

The curves x = sin y and y = (x − 1)^2 + π/2 along with the line x = 0 create a bounded region, D, in x ≥ 0, 0 ≤ y ≤ 3. (a) Sketch D and identify a type I region D1 and a type II region D2 such that D = D1∪D2. (b) Find the area of D using the regions from a)

1.Find ff if f′′(x)=2+cos(x),f(0)=−7,f(π/2)=7.f″(x)=2+cos⁡(x),f(0)=−7,f(π/2)=7. f(x)= 2.Find f if f′(x)=2cos(x)+sec2(x),−π/2<x<π/2,f′(x)=2cos⁡(x)+sec2⁡(x),−π/2<x<π/2, and f(π/3)=2.f(π/3)=2. f(x)= 3. Find ff if...

1.Find ff if f′′(x)=2+cos(x),f(0)=−7,f(π/2)=7.f″(x)=2+cos⁡(x),f(0)=−7,f(π/2)=7. f(x)= 2.Find f if f′(x)=2cos(x)+sec2(x),−π/2<x<π/2,f′(x)=2cos⁡(x)+sec2⁡(x),−π/2<x<π/2, and f(π/3)=2.f(π/3)=2. f(x)= 3. Find ff if f′′(t)=2et+3sin(t),f(0)=−8,f(π)=−9. f(t)= 4. Find the most general antiderivative of f(x)=6ex+9sec2(x),f(x)=6ex+9sec2⁡(x), where −π2<x<π2. f(x)= 5. Find the antiderivative FF of f(x)=4−3(1+x2)−1f(x)=4−3(1+x2)−1 that satisfies F(1)=8. f(x)= 6. Find ff if f′(x)=4/sqrt(1−x2)  and f(1/2)=−9.

Find all solutions of x^3 + 8x^2 - x - 1 is congruent 0(mod43)

Find all solutions of x^3 + 8x^2 - x - 1 is congruent 0(mod43)

The continuous time signal x(t) = 2*sin (2*π*100*t + π/2) + sin (2*π*150*t) + 3*sin (2*π*300*t)...

The continuous time signal x(t) = 2*sin (2*π*100*t + π/2) + sin (2*π*150*t) + 3*sin (2*π*300*t) is sampled at 500 samples per second. Write the mathematical expression x(n) of the sampled discrete time signal. Show your work. What are the discrete time frequencies obtained in x(n)?