Answer to Question #164536 in Trigonometry for juls

equation for oscillation is d (t) = 6 sin2t .

a)

period of motion(T) = "\\frac{2\\pi}{\\omega}" = "\\frac{2\\pi}{2}" = "\\pi" sec.

frequency (f) = "\\frac{1}{T}" = "\\frac{1}{\\pi}" sec^-1

b)

at equilibrium t= 0, d(0) = 6 sin2(0) = 0

at time t = 2.5, d(2.5) = 6 sin2(2.5) = 6 sin5, here the sin5, angle 5^c is in radian so to convert it into degree we use 360⁰ = (2"\\pi")^c

1^c (radian) = 360/2"\\pi" = 180/"\\pi"

thus, d(2.5) = 6*sin( (5*180)/"\\pi" ) = 6*(- 0.959) = -5.75 cm

range of displacement [-6,6] as sin range [-1,1]

thus, the weight is moving away from the equilibrium at t = 2.5 sec.

c)

at t = 3.5 sec , d(3.5) = 6* sin(2*3.5) = 6* sin(7)

d(3.5) = 6* sin((7*180)/"\\pi" ) = 6* (0.665) = 3.991 cm

thus, the weight is moving away from the equilibrium.

d)

at t = 1 sec,

d(1) = 6*sin(2*1)^c = 6* sin((2*180)/"\\pi" )⁰ = 6* 0.909 = 5.455 cm

at t=1.5 sec,

d(1.5) = 6* sin(2*(1.5))^c = 6* sin((3*180)/"\\pi" )⁰ = 6* 0.141 = 0.847 cm

thus, the weight move between t= 1 and t = 1.5 sec is

d(1.5) - d(1) = 0.847 - 5.455 = -4.607 cm

e)

average velocity = "\\frac{d(d)}{dt}= (6*cos2t)*{\\frac{d(2t)}{dt}} = (6*cos2t)*(2) = 12cos2t"

average velocity at t= 1sec to t = 1.5 sec is

V = 12cos2(1.5) - 12cos2(1) = 12(cos3 - cos2)

V = 12 [cos(3*180/"\\pi" ) - cos(2*180/"\\pi" )] = 12[-0.99 - (-0.42)] = 12*(-0.57)

V = - 6.89 cm/sec.

negative sign shows that the velocity is decreasing as time increase from 1 sec to 1.5 sec.