The period of small oscillations of a simple pendulum of length `l` if its point of suspension `O` moves `a` with a constant acceleration `alpha = alpha_(1)overset(wedge)(i) - alpha_(2)overset(wedge)(j)` with respect to earth is (`overset(wedge)(i)` and `overset(wedge)(j)` are unit vectors in horizontal in horizontal and vertically upward directions respectively)

Find the period of oscillation of a pendulum of length l if its point of suspension is (a) moving vertically up with acceleration a (b) moving vertically down with acceleration a(lt g) (c) failing freely under gravity moving horizontal with acceleration a .

Find the period of small oscillations of a mathematical pendulum of length l if its point of suspension O moves relative to the Earth's surface in an arbitrary directio with a constant acceleration w (figure). Calculate that period if l=21 cm, w=g//2, and the angle between the vectors w and g equals beat =120^(@) .

An aeroplane is flying in vertical plane at an angle of 30^(@) with the horizontal (north) and wind is is blowing from west.A package is dropped from an aeroplane. The velocity of the wind if package hits a kite flying in the space with a position vector vec(R) = (400 sqrt(3) hat(i) + 80 hat(j) + 200 hat(k)) m with respect to the point of dropping. (Here hat(i) and hat(j) are the unit vectors along north and vertically up respectively and hat(k) be the unit vector due east. Assume that the bag is light enough to get carried away by the wind)

A simple pendulum is suspended from the roof of a trolley which moves in a horizontal direction with an acceleration alpha , then the time period is given by T = 2pisqrt(((I)/(T))) where g is equal to

A projectile is given an initial velocity of (hat(i)+2hat(j)) The Cartesian equation of its path is (g = 10 ms^(-1)) ( Here , hati is the unit vector along horizontal and hatj is unit vector vertically upwards)

At the given instan four particle having masses and accleration as shown in the shown in the figure lie at verties of a square. Acceleration on the center of mass of system is : (A) (1)/(5)(overset(wedge)(i) + overset(wedge)(j)) (B) (1)/(5)(overset(wedge)(j) + overset(wedge)(i)) (C) (1)/(5)(overset(wedge)(i) - overset(wedge)(j)) (D) -(1)/(5)(overset(wedge)(i) + overset(wedge)(j))

A simple pendulum of length l is suspended from the ceilling of a car moving with a speed v on a circular horizontal road of radius r. a. Find the tension in the string when it is at rest with respect to the car. b.Find the time period of small oscillation.

The position vector of a point R which divides the line joining two points P and Q whose position vectors are overset(^)i+2overset(^)j-overset(^)k and - overset(^)i+overset(^)j-overset(^)k respectively, in the ratio 2:1 externally is

If the vectors 5overset(^)i-xoverset(^)j+3overset(^)k and -3overset(^)i+2overset(^)j-yoverset(^)k are parallel, the value of x and y respectively are