Prove the continuity of sin x or cos x on R, or simply on any interval...

Prove that the family of trigonometric functions { 1, cos x, sin x, ..., cos nx,...

Prove that the family of trigonometric functions { 1, cos x, sin x, ..., cos nx, sin nx, ...} form an orthogonal system on [-pi,pi] prove that the following orthogonality relations hold integral from -pi to pi of sin nx dx = 0 and integral from -pi to pi of cos nx dx = 0

1) Find the length of the parametric curve x=2 cos(t) , y=2 sin(t) on the interval...

1) Find the length of the parametric curve x=2 cos(t) , y=2 sin(t) on the interval [0, pi]. 2) A rope lying on the floor is 10 meters long and its mass is 80 kg. How much work is required to raise one end of the rope to a height of 15 meters?

using reduction formula*** 13. Evaluate, ∫ sin 5x cos x dx. Also prove that, ∫ sin...

using reduction formula*** 13. Evaluate, ∫ sin 5x cos x dx. Also prove that, ∫ sin mx cos nx dx = 0

Using the Taylor series for e^x, sin(x), and cos(x), prove that e^ix = cos(x) + i...

Using the Taylor series for e^x, sin(x), and cos(x), prove that e^ix = cos(x) + i sin(x) (Hint: plug in ix into the Taylor series expansion for e^x . Then separate out the terms which have i in them and the terms which do not.)

What is the area inside r = sin(x) and outside r = 1 - cos(x)?

What is the area inside r = sin(x) and outside r = 1 - cos(x)?

Use the Mean Value Theorem and the fact that for f(x) = cos(x), f′(x) = −sin(x),...

Use the Mean Value Theorem and the fact that for f(x) = cos(x), f′(x) = −sin(x), to prove that, for x, y ∈ R, | cos x − cos y| ≤ |x − y|.

If R(theta)=[(cos, -sin) (sin, cos)] 1) show that R(theta) is a linear transformation from R2->R2 2)Show...

If R(theta)=[(cos, -sin) (sin, cos)] 1) show that R(theta) is a linear transformation from R2->R2 2)Show that R(theta) of R(alpha) = R(theta + alpha) 3) Find R(45degrees) [(x), (y)], interpret it geometrically

Prove the following (4 sin(θ) cos(θ))(1 − 2 sin2 (θ)) = sin(4θ) cos(2θ) /1 + sin(2θ)...

Prove the following (4 sin(θ) cos(θ))(1 − 2 sin2 (θ)) = sin(4θ) cos(2θ) /1 + sin(2θ) = cot(θ) − 1/ cot(θ) + 1 cos(u) /1 + sin(u) + 1 + sin(u) /cos(u) = 2 sec(u)

Prove the identity 1) sin(u+v)/cos(u)cos(v)=tan(u)+tan(v) 2) sin(u+v)+sin(u-v)=2sin(u)cos(v) 3) (sin(theta)+cos(theta))^2=1+sin(2theta)

Prove the identity 1) sin(u+v)/cos(u)cos(v)=tan(u)+tan(v) 2) sin(u+v)+sin(u-v)=2sin(u)cos(v) 3) (sin(theta)+cos(theta))^2=1+sin(2theta)

1. a) Get the arc length of the curve. r(t)= (cos(t) + tsin(t), sin(t) - tcos(t),...

1. a) Get the arc length of the curve. r(t)= (cos(t) + tsin(t), sin(t) - tcos(t), √3/2 t^2) in the Interval 1 ≤ t ≤ 4 b) Get the curvature of r(t) = (e^2t sen(t), e^2t, e^2t cos (t))