You are given that sin(A)=−7/25, with A in Quadrant III, and cos(B)=63/65, with B in Quadrant...

You are given that cos(A)=−45, with A in Quadrant III, and cos(B)=1517, with B in Quadrant...

You are given that cos(A)=−45, with A in Quadrant III, and cos(B)=1517, with B in Quadrant I. Find cos(A+B). Give your answer as a fraction.

if sin x = 7/8 , x in quadrant I, then find (without finding x) sin(2x)=...

if sin x = 7/8 , x in quadrant I, then find (without finding x) sin(2x)= cos(2x)= tan(2x)= Show Steps I need help

Find the exact value of the expressions cos(a+b), sin(a+b) and tan(a+b) under the following conditions: cos(x)=12/13,x...

Find the exact value of the expressions cos(a+b), sin(a+b) and tan(a+b) under the following conditions: cos(x)=12/13,x lies in quadrant 4, and sin(y)=-4/11, y lies in quadrant 3 a. cos (a+b) b.sin(a+b) c.tan(a+b)

Find the exact value of the trigonometric function given that sin u = − 5 13...

Find the exact value of the trigonometric function given that sin u = − 5 13 and cos v = − 20 29 . (Both u and v are in Quadrant III.) cot(v − u)

Find the exact value of sin(2x) given that sinx=60/61, and x is in Quadrant II. I...

Find the exact value of sin(2x) given that sinx=60/61, and x is in Quadrant II. I got the answer of -1320/3721 im not sure if the answer is positive or negative. also is my answer correct

Find sin(x/2), cos(x/2), and tan(x/2) from the given information. Sin(x) = 24/25, 0° < x <...

Find sin(x/2), cos(x/2), and tan(x/2) from the given information. Sin(x) = 24/25, 0° < x < 90°

Question B:Consider the integral of sin(x) * cos(x) dx. i) Do it using integration by parts;...

Question B:Consider the integral of sin(x) * cos(x) dx. i) Do it using integration by parts; you might need the “break out of the loop” trick. I would do u=sin(x), dv=cos(x)dx ii) Do it using u-substitution. I would do u=cos(x) iii) Do it using the identity sin(x)*cos(x)=0.5*sin(2x) iv) Explain how your results in parts i,ii,iii relate to each other.

Find r(t) for the given conditions. r''(t) = −7 cos(t)j − 3 sin(t)k,     r'(0) = 3k,     r(0) =...

Find r(t) for the given conditions. r''(t) = −7 cos(t)j − 3 sin(t)k,     r'(0) = 3k,     r(0) = 7j

(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

Given r(t)=sin(t)i+cos(t)j−ln(cos(t))k, find the unit normal vector N(t) evaluated at t=0,N(0).

Given r(t)=sin(t)i+cos(t)j−ln(cos(t))k, find the unit normal vector N(t) evaluated at t=0,N(0).