Home
Class 11
PHYSICS
Two simple harmonic motion are represent...

Two simple harmonic motion are represent by the following equations
`y_(1) = 10 sin (pi//4) (12 t + 1)`
`y_(2) = 5 (sin 3 theta t + sqrt3 cos 3 theta t)`
Here `t` is in seconds.
Find out the ratio of their amplitudes.What are the time period of the two motion?

Promotional Banner

Similar Questions

Explore conceptually related problems

The simple harmonic motions are represented by the equations: y_(1)=10sin((pi)/(4))(12t+1), y_(2)=5(sin3pit+sqrt(3)))

Two simple harmonic motions are represented by y_(1) = 10 sin"" (pi)/(4) (12t+1)" and " y_(2) = 5(sin"" 3pi t+ sqrt(3) cos 3pi t) . Find out the ratio of their amplitudes. What are the time period of two motions.

Two simple harmonic motions are represented by the equations. y_(1)=10"sin"(pi)/(4)(12t+1),y_(2)=5(sin3pt+sqrt(3)cos3pt) the ratio of their amplitudes is

Two simple harmonic motions are represented by the equations. y_(1)=10"sin"(pi)/(4)(12t+1),y_(2)=5(sin3pt+sqrt(3)cos3pt) the ratio of their amplitudes is

Two simple harmonic motions are represented by the equations y_(1) = 10 sin (3pit + (pi)/(4)) and y_(2) = 5 (3 sin 3 pi t+sqrt(3) cos 3 pi t) . Their amplitudes are in the ratio of

Two simple harmonic motions are represented by the equations y_(1)=2(sqrt(3)cos3 pi t+sin3 pi t) and y_(2)=3sin(6 pi t+pi/6)

Two harmonic motions are represented by the equations y_1 = 10 sin(3pi t + pi/4) y_2 = 5(sin 3 pi t + sqrt3 cos 3 pi t) their amplitudes are in the ratio

Two simple harmonic motions are represented by the equations y_(1) = 10 sin(3pit + pi//4) and y_(2) = 5(sin 3pit + sqrt(3)cos 3pit) their amplitude are in the ratio of ………… .

Two simple harmonic motions are represented by the equations y_(1) = 10 sin(3pit + pi//4) and y_(2) = 5(sin 3pit + sqrt(3)cos 3pit) their amplitude are in the ratio of ………… .