The correct relationship between the boiling point of very dilute solutions of `AiCI_(3)(t_(1))` and `caCI_(2)(t_(2))` having the same molar concentration is:

Statement-I: 1M solution of Glauber's salt is isotonic with 1M solution of KNO_(3) . Because Statement-II: Solutions having same molar concentration fo solute may or may not have same osmotic pressure.

Let r_(1)(t)=3t hat(i)+4t^(2)hat(j) and r_(2)(t)=4t^(2) hat(i)+3that(j) represent the positions of particles 1 and 2, respectiely, as function of time t, r_(1)(t) and r_(2)(t) are in metre and t in second. The relative speed of the two particle at the instant t = 1s, will be

A projectile can have the same range R for two angles of projection. If t_(1) and t_(2) be the times of flight in the two cases:-

Find the distance between the points (at_(1)^(2), 2 at_(1)) and (at_(2)^(2), 2 at_(2)) , where t_(1) and t_(2) are the roots of the equation x^(2)-2sqrt(3)x+2=0 and a gt 0 .

A point moves with uniform acceleration and v_(1), v_(2) , and v_(3) denote the average velocities in the three successive intervals of time t_(1).t_(2) , and t_(3) Which of the following Relations is correct?.

Find the equation of the straight lines passing through the following pair of point: (a t_1, a//t_1) and (a t_2, a//t_2)

Two particle A and B are moving in XY-plane. Their positions vary with time t according to relation x_(A)(t)=3t, x_(B)(t)=6 y_(A)(t)=t, y_(B)(t)=2+3t^(2) The distance between two particle at t=1 is :

When a block of mass m is suspended separately by two different springs have time period t_(1)" and "t_(2) . If same mass is connected to parallel combination of both springs, then its time period is given by :-