Two particles are executing S.H.M. The equation of their motion are `y_(1) = 10 sin (omega t + (piT)/4),y_(2)=25 sin (omegat+(sqrt3piT/4))` . What is the ratio of their amplitude

Two particle are executing SHMs .The equations of their motions are y_(1)=10"sin"(omegat+(pi)/(4)) " and "y_(2)=5 "sin"(omegat+(sqrt(3)pi)/(4)) What is the ratio of their amplitudes.

Two particle are executing SHMs .The equations of their motions are y_(1)=10"sin"(omegat+(pi)/(4)) " and "y_(2)=5 "sin"(omegat+(sqrt(3)pi)/(4)) What is the ratio of their amplitudes.

Two particle are executing SHMs .The equations of their motions are y_(1)=10"sin"(omegat+(pi)/(4)) " and "y_(2)=5 "sin"(omegat+(sqrt(3)pi)/(4)) What is the ratio of their amplitudes.

The equations of two SHM are y_(1)=10sin(4pit+pi/4),y_(2)=5(sin3pit+sqrt3cos3pit) . What is the ratio of their amplitudes?

Two simple harmonic motions are given by y _(1) = 5 sin ( omegat- pi //3). y_(2) = 5 ( sin omegat+ sqrt(3) cos omegat) . Ratio of their amplitudes is

Two simple harmonic motions are given by y _(1) = 5 sin ( omegat = pi //3). y_(2) = 5 ( sin omegat+ sqrt(3) cos omegat) . Ratio of their amplitudes is

Equations of two SHMs are y_(1)=10sin(3pit+pi/4)andy_(2)=5(sin3pit+sqrt3cos3pit) . Determine the ratio of their amplitudes.

The equation of two particles are given by y_1 = 10 sin (4pit+pi/4) and y_2 = 5 (sin 3pit + sqrt3 cos 3pit) , what is the ratio of the amplitude for y_1 and y_2 .

Two SHM's are represented by y_(1) = A sin (omega t+ phi), y_(2) = (A)/(2) [sin omega t + sqrt3 cos omega t] . Find ratio of their amplitudes.

Two SHM's are represented by y_(1) = A sin (omega t+ phi), y_(2) = (A)/(2) [sin omega t + sqrt3 cos omega t] . Find ratio of their amplitudes.