Find the radius vector defining the position of a point source of spherical waves if that source is known to be located on the straight line between the points with radius vector `r_(1)` and `r_(2)` at which the oscillation amplitudes of particles of the medium are equal to `a_(1)` and `a_(2)`. The damping of the wave is negligible, the medium is homogeneous.

A point isotropic sound source is located on the perpendicular to the plane of a ring drawn through the centre O of the ring. The distance between the point O and the source is l=1.00m, the radius of the ring is R=5.00m . Find the mean energy flow across the area enclosed by the ring if at the point O the intensity of sound is equal to I_(0)=30 mu W//m^(2) . The damping of the waves is negligible.

From a point source a light falls on a spherical glass surface ( mu = 1.5 and radius of curvature = 10 cm ). The distance between point source and glass surface is 50 cm . The position of image is

Two positive charges q_(1) and q_(2) are located at the points with redius vectors r_(1) and r_(2) . Find a negative charge q_(3) and a radius vector r_(3) of the point at which it has to be placed for the force acting on each of the three charges to be equal to zero.

A plane harmonic wave of frequency 440 Hz propagates in a medium in a direction that makes angle 60^(@)C with x-axis as well as y-axis, find the phase difference between the oscillation at the point of medium whose coordinates are 91,1,2) and (2,3,1). the velocity of the wave in the medium is 220m/s.

A point sound is located in the perpendicular to the plane of a ring drawn through the centre O of the ring. The distance between the point O and the source is l = 1.00 m , the radius of the ring is R = 0.50 m . If the mean energy flow rate across the area encloseed by the ring is (in muW ). Find (x_(0))/(5) . Given, at point O the energy intensity of sound is equal to I_(0) = 30 muW//m^(2) and assuming the damping of the waves is negligible.

The shortest distance between the straight lines through the points A_(1)=(6,2,2) and A_(2)=(-4,0,-1), in the directions of (1,-2,2) and (3,-2,-2) is

Find the intensity of sound wave whose frequency is 250 Hz. The displacement amplitude of particles of the medium at this position is 1 xx 10^(-8) m. The density of the medium is 1 kg"/"m^3 , bulk modulus of elasticity of the medium is 400 N"/"m^2 .