3.2) If a(t)=<-1/(t+1)^2, sec^3 t+ tan^2 t sec t,-t sin t+ 2 cos t- 2> represents...

A particle is moving according to the given data a(t) = sin t + 3 cos...

A particle is moving according to the given data a(t) = sin t + 3 cos t, x(0) = 0, v(0) = 2. where a(t) represents the acceleration of the particle at time t. Find v(t), the velocity of the particle at time t, and x(t), the position of the particle at time t.

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)

Find the values of sin x, tan x, cot x, sec x, and csc x and...

Find the values of sin x, tan x, cot x, sec x, and csc x and cos x given that cos(2x)=(3/5) and 3 π /2 < 2x <2 π

(a) Rewrite the expression as an algebraic expression in x tan(sin-1(x)) (b) Find sin(2x), cos(2x) and...

(a) Rewrite the expression as an algebraic expression in x tan(sin-1(x)) (b) Find sin(2x), cos(2x) and tan (2x) from the given information csc(x)=4, tan(x)<0

Find the exact values of sin(θ/2), cos(θ/2), and tan(θ/2) for the given conditions. sec θ =...

Find the exact values of sin(θ/2), cos(θ/2), and tan(θ/2) for the given conditions. sec θ = − 3 2 ;    180° < θ < 270°

Name the Quadrant 1. cot q = -3 , tan q = 2. cot q =...

Name the Quadrant 1. cot q = -3 , tan q = 2. cot q = -3 , tan q = 3. sec q = 1.5 , cos q = 4. cos q = -3/5 , sec q = Solve the identity function 1. tan x / sin x 2. cos t / cot t 3. cos a csc a tan a 4. cot t sec t sin t 5. 1 - cos2 q 6. csc2 q - 1 7....

Consider a particle moving through space with velocity v(t) = cos(t)i−sin(t)j + tk. (i) (3 marks)...

Consider a particle moving through space with velocity v(t) = cos(t)i−sin(t)j + tk. (i) Determine its acceleration vector. (ii) Determine the position vector, supposing the particle starts at position (3,−2,3) at time t = 0.

a(t) = 2e^ −t + 4 cos(2t) − sin(2t). Find the initial acceleration at t =...

a(t) = 2e^ −t + 4 cos(2t) − sin(2t). Find the initial acceleration at t = 0. If time is measured in seconds and distance is measured in meters, what units is your answer in? Find the velocity v(t) of the object given an initial velocity of 2 meters per second. Find the position s(t) of the object given an initial position of 0 meters.

9. Suppose that tan(alpha)=3/4 and pi<alpha<3pi/2. Find: a)sin(2alpha), b)cos(2alpha). 10. Suppose that tan(alpha)=-3 and 3pi/2<alpha<2pi. Find:...

9. Suppose that tan(alpha)=3/4 and pi<alpha<3pi/2. Find: a)sin(2alpha), b)cos(2alpha). 10. Suppose that tan(alpha)=-3 and 3pi/2<alpha<2pi. Find: a)sin(2alpha), b)cos(2alpha). 16. Given theta is an acute angle with cos(theta)=1/4 , find the value of tan(theta/2)+tan(2theta). Hint: Find each (using half angle or double angle formulas) and add them up.

find the derivative 4x^(3) tan(2x) mainly how tan(2x) become sec^2(2x)

find the derivative 4x^(3) tan(2x) mainly how tan(2x) become sec^2(2x)