An object kept near a convex lens of focal length f, executes SHM between P and Q according to the equation `y=A sinomegat`, O being the mean position. Take x-axis as the principal axis of the lens and `A lt lt D` to answer the following questions:

Q. The amplitude of oscillation of the image is

An object kept near a convex lens of focal length f, executes SHM between P and Q according to the equation y=A sinomegat , O being the mean position. Take x-axis as the principal axis of the lens and A lt lt D to answer the following questions: Q. The velocity of the image when the object crosses the mean position and goes toward Q is

An object kept near a convex lens of focal length f, executes SHM between P and Q according to the equation y=A sinomegat , O being the mean position. Take x-axis as the principal axis of the lens and A lt lt D to answer the following questions: Q. The phase difference between the object and the image oscillations is

In YDSE set up (see fig.), the light sources executes SHM between P and Q according to the equation x = A sin omega t , S being the mean position. Assume d rarr 0 and A lt lt L . omega is small enough to neglect Doppler effect. If the sources were stationary at S, intenstiy at O would be I_(0) Read the paragraph carefully and answer the following questions. When the source comes toward the point Q,

In YDSE set up (see fig.), the light sources executes SHM between P and Q according to the equation x = A sin omega t , S being the mean position. Assume d rarr 0 and A lt lt L . omega is small enough to neglect Doppler effect. If the sources were stationary at S, intenstiy at O would be I_(0) Read the paragraph carefully and answer the following questions. The fractional change in intensity of the central maximum as function of time is

In YDSE set up (see fig.), the light sources executes SHM between P and Q according to the equation x = A sin omega t , S being the mean position. Assume d rarr 0 and A lt lt L . omega is small enough to neglect Doppler effect. If the sources were stationary at S, intenstiy at O would be I_(0) Read the paragraph carefully and answer the following questions. The fringe width beta can be expressed as

A thin linear object of size 1mm is kept along the principal axis of a convex lens of focal length 10cm. The object is at 15cm from the lens. The length of the image is:

A point object is placed on the optic axis of a convex lens of focal length f at a distance of 2f to the left of it. the diameter of the lens is 'd' . An eye is placed at a distance of 3f to the right of the lens and a distance h below the optic axis. The maximum value of h to see the image is

A 5 cm tall object is placed on the principal axis of convex lens of focal length 50 cm at a distance of 40 cm from it. Find the nature, position and size of the image.

A convex lens of focal length f and a plane mirror are y distance apart. An object O is kept on the principal axis of the lens at a distance x from the lens. The values of x and y for the final image of O to fall exactly (position and size) on the object O are :