Freon gas causing stratospheric `O_3` depletion is mainly released from

NH_3 is released from:

A positively charged thin metal ring of radius R is fixed in the xy plane with its centre at the origin O. A negatively charged particle P is released from rest at the point (0, 0, z_0 ) where z_0gt0 . Then the motion of P is

The density of a gas filled in electric lamp is 0.75kg//m^(3) . After the lamp has been switched on, the pressure in it increases from 4xx10^(4) Pa to 9xx10^(4) Pa. What is increases in u_("rms") ?

Why the graphite rods in the extraction of aluminium from molten Al_2O_3 have to be replaced from time to time ?

A compressed cylinder of gas contains 1.50xx10^(3) g of N_(2) gas at a pressure of 2.0xx10^(7) Pa and a temperature of 17.1^(@)C . What volume of gas has been released into the atmosphere if the final pressure in the cylinder is 1.80xx10^(5) Pa ? Assume ideal behaviour and that the gas temperature is unchanged.

A ball is projected from O with an intial velocity 700 cm/s in a direction 37^@ above the horizotal. A ball B, 500 cm away from O on the line of the intial velocity of A, is released from rest at the instant A is projected. Find the direction and magnitude of the velocity A at the time of impact. [given g = 10m//s^2, sin37^@ = 0.6 and cos37^@ = 0.8]

Calculate DeltaS for 3 mole of a diatomic ideal gas which is heated and compressed from 298 K and 1 bar to 596 K and 4 bar: [Given: C_(v,m)(gas)=(5)/(2)R,"ln"(2)=0.70,R=2"cal K^(-1)mol^(-1) ]

Translate the following statements into chemical equation and balance the equations : aluminium metal replaces iron from ferric oxide (Fe2O3) giving aluminium oxide and iron.

Give reason for the following: Far more O_2 is released from oxy Hb in a more active tissue than in a less active tissue.

A curved surface is shown in the figure. The portion BCD is free of friciton. There are three spherical balls of identical radii and masses. Balls are released from rest one by one from A which is at a slightly greater height than C. With the surface AB, ball 1 has large enough firction to cause rolling down without slipping, ball 2 has a small friction and ball 3 has a negligible frction. For which balls is total mechanical energy conserved?