According to the Hooke's law the force required to change the length of a wire by 'l' is proportional to

According to Neton's law of cooling, the rate of colling of a body is proportional to (Deltatheta)^n , where Deltatheta is difference of temprature of the body and the surroundings, and n is equal to

According to Henry's law, the partial pressure of gas (p'_(g)) is directly proportional to mole fraction of gas in dissolved state, i.e., P_("gas")'=K_(H),X_("gas") where K_(H) is Henry's constant. Which are correct?

Underline the correct alternative :- The rate of change of total momentum of a many-particle system is proportional to the external force // sum of the internal forces on the system.

Newton 's Law of Cooling : According to Newton 's law of cooling the rate of cooling is directly proportional to the temperature difference of body and its surrounding .If body cools from theta_(1) "to" theta_(2) in t seconds then (ms(theta_(1) -theta_(2))/(t)=alpha[(theta_(1)+theta_(2))/(t)- theta_(0)] . Where theta_(0) is the temperature of the surrounding . Is the statement true?

Which type of force is required to change the direction of motion of the body - a balanced or unbalanced force ?

According to Curie's law, the magnetic susceptibility of a substance at the absolute temperature T is proportional to

A horizontal wire AB of length 'l' and mass 'm' carries a steady current I_1 , free to move in vertical plane is in equilibrium at a heigh of 'h' over another parallel long wire CD carrying a steady current I_2 , which is fixed in a horizontal plane as shown. Derive the expression for the force acting per unit length on the wire AB and write the condition for which wire AB is in equilibrium.

It is found that 125 cm length of a potentiometer wire is required to balance the e.m.f. of a Daniel cell but that only 100 cm of the wire is required for the balance, if the poles of the ell are joined to a resistance of 2 ohm. Calculate the internal resistance of the cell.

A current of 10 A flows through each of two parallel long wires. The wires are 5 cm apart. Calculate the force acting per unit length of each wire. Use the standard value of constant required.