A mutant strain of `T_4` – Bacteriophage, R-II, fails to lyse the E-Coli but when two strains `R-II^X` and `R-II^Y` are mixed then they lyse the E.Coli. What may be the possible reason : -

A circuit consisting of a constant EMF E, a self-inductance L and a resistance R in sereis is closed at time t=0 . The relation between the current i in the circuit and the time t is as shown by the curve. A in the figure-5.321. when one or more of parameters E,R and L are changed, the curve B is obtained. Then it is possible that:

In a binomial expansion (x_y)^n gretest term means numericaly greatest term and therefore greatest term in (x-y)^n and (x+y)^n are ame. I frth therm t_r be the greatest term in the expansion of (x+y)^n whose therms are all ositive, then t_rget_(r+1) and t_rget_=(r-1)i.e. t_r/t_mge1 and t_r/t_(r-)ge1 On the basis of above information answer the following question:If rth term is the greatest term in the expansion f (2-3x0^10 then r= (A) 5 (B) 6 (C) 7 (D) none of these

A curve is represented parametrically by the equations x=t+e^(at) and y=-t+e^(at) when t in R and a > 0. If the curve touches the axis of x at the point A, then the coordinates of the point A are

(i) State the two Kirchhoff's laws, Explain of the briefly how these rules are justified. (ii) The current is drawn from a cell of emf E andinternal resistance r connected to the network of resistors each of resistance r as shown in the figure. Obtain the expression for (i) The current draw from the cell and (ii) the power consumed in the network .

Statement I is True: Statement II is True; Statement II is a correct explanation for statement I Statement I is true, Statement II is true; Statement II not a correct explanation for statement I. Statement I is true, statement II is false Statement I is false, statement II is true Statement I: if r ,\ s\ &\ t be the roots of the equation : x(x-2)(3x-7)=2,\ t h e ntan^(-1)r+tan^(-1)s+tan^(-1)t=3pi//4 because Statement II: The roots of the equation x(x-2)(3x-7)=2 are real & negative. a. A b. \ B c. \ C d. D

A is a set of first 10 natural numbers and R is a relation from A to A defined as: (x,y) in R hArr x+2y=10 when x,y in A (i)Express R in the form of a set of ordered pairs. (ii) Find the domain and range of R. (iii) Find R^(-1) .

A particle is projected from the surface of earth of mass M and radius R with speed v . Suppose it travels a distance x(lt lt R) when its speed becomes v to v//2 and y(lt lt R) when speed changes from v//2 to 0. Similarly, the corresponding times are suppose t_(1) and t_(2) . Then {:(,"Column-I",,"Column-II"),("(A)",x//y,"(p)",=1),("(B)",t_(1)//t_(2),"(r)",gt 1),(,,"(r)",lt 1):}

In each situation of column-I, a circuit involving two non-ideal cells of unequal emf E_(1) and E_(2)(E_(1) gt E_(2)) and equal internal resistance r are given. A resistor of resistance R is connected in all four situations and a capacitor of capacitance C is connected in last two situations as shown. Assume battery can supply infinity charge to the circuit (r, R!=0, E_(1), E_(2)!=0 ). Four statements are given in column-II. Match the situation of column-I with statements in column-II.

A light container having a diatomic gas enclosed within is moving with velocity V . Mass of the gas is M and number of moles is n . (i) What is the kinetic energy of gas w.r.t. centre of mass of the system? (ii) What is K.E. of gas w.r.t. ground?

A particle is moving in a circle of radius R . a. What is its displacement when it covers (i) half the circle, (ii) full circle? b. What is its distance when it comers (i) half the the circle and (ii) full circle ?. .