A wave is represented by the equation `y=10 sin 2pi (100 t-0.02x)+ 10 sin 2pi (100t +0.02 x).` The maximum amplitude and loop length are respectively.

A wave is given by the equation y = 10 sin 2 pi (100 t - 0.02 x) + 10 sin 2 pi (100 t + 0.02 x) Find the loop length , frequency , velocity and maximum amplitude of the stationary wave produced.

A wave is given by the equation y = 10 sin 2 pi (100 t - 0.02 x) + 10 sin 2 pi (100 t + 0.02 x) Find the loop length , frequency , velocity and maximum amplitude of the stationary wave produced.

A wave is given by the equation y = 10 sin 2 pi (100 t - 0.02 x) + 10 sin 2 pi (100 t + 0.02 x) Find the loop length , frequency , velocity and maximum amplitude of the stationary wave produced.

A wave is given by the equation y = 10 sin 2 pi (100 t - 0.02 x) + 10 sin 2 pi (100 t + 0.02 x) Find the loop length , frequency , velocity and maximum amplitude of the stationary wave produced.

Two waves are represented by the following equations : y_1 =5 sin 2pi (10 t-0.1x) and y_2=10 sin 2pi (20 t-0.2 x) Ratio of intensities I_2//I_1 will be.

A wave is represented by the equation y= A sin ( 10 pi x + 15 pi t + (pi)/(6)) wher x is in metre and t in second. The expression represents

A wave is represented by the equation y = 0.06 sin (200 (pi) t - 20 (pi) x) quantities are in S.I. units . Calculate amplitude

Two waves are represented by the following equations y_(1) = 5 sin 2pi (10t -0.1 x) y_(2) = 10 sin 2pi (20t - 0.2 x) Ratio of intensites I_(2)//I_(1) will be

The superposing waves are represented by the following equations : y_(1) 5 sin 2 pi (10 t-0.1 x ), y_(2)=10 sin 2 pi (20t -0.2 x) Ratio of intensities (I_("max"))/(I_("min")) will be