`10^(23)` molecules of a gas strike a target of area `1 m^(2)` at angle `45^(@)C` to normal and rebond elastically with speed `1 kms^(1)`. The impulses normal to wall per molecule is " - [Given : mass of molecule = `3.32 xx 10 ^(-27)kg`]

Calculate the mass of 1 mole of neutron in kg (n_(m) = 1.675 xx 10^(27) kg)

The mass of hydrogen molecule is 3.32xx10^(-27) kg. If 10^(23) hydrogen molecules strick per second at 2 cm^(2) area of a rigid wall at an angle of 45^(@) from the normal and rebound back with a speed of 1000 ms^(-1) , then the pressure exerted on the wall is

Four molecules of a gas have speed 1, 2, 3 and 4 km s^(-1) respectively. The value of rms speed of the molecules is (in km s^(-1) )

Estimate the speed of sound in air at standard temperature and pressure. The mass of 1 mole of air is 29.0 xx 10 ^(-3)kg.

A molecule in a gas container hits a horizontal wall with speed 200 ms^(-1) and " angle " 30^(@) with the normal , and rebounds with the same speed . Is momentum conserved in the collision ? Is the collision elastic or inelastic ?

Estimate the speed of sound in air at standard temperature and pressure. Athe mass of 1 mole of air is 29.0 xx 10^(-3) kg .

N (lt 100) molecules of a gas have velocities 1,2,3….N km/s respectively. Then

A ball of mass 1 kg drops vertically on to the floor wit a speed of 25 m//s . It rebounds with an initial velocity of 10 m//s . What impulse acts on the ball during contact ?

A rocket is fired ‘vertically’ from the surface of mars with a speed of 2 km s^(–1) . If 20% of its initial energy is lost due to martian atmospheric resistance, how far will the rocket go from the surface of mars before returning to it ? Mass of mars = 6.4 xx 10^(23) kg, radius of mars = 3395 km, G = 6.67 xx 10^(-11) N m^(2) Kg^(-2) .

The vertices of a quadrilateral are A(1,0), B(7,0), C(6,3) and D(2,3). Find it's area