Calculate the tension in the thread during equilibrium condition(`m=80×10^(-6)`kg, q=`2×10^(-8)`C) -

Four point charges q_(1),q_(2),q_(3)" and " q_(4) are placed at the corners of the squares of side a,as shown in figure.Calculate the potential at the centre of the square. (Given, q_(1)=1xx10^(-8)C,q_(2)= -2xx10^(-8)C,q_(3)=3xx10^(-8)C,q_(4)=2xx10^(-8)C" and " a=1m )

Find the value of tension in string 1 if the system equilibrium ? (g=10 m//s^(2) )

Assertion : Two identical balls are charged by q. They are suspended from a common point by two insulating threads l each. In equilibrium, the angle between the tension in the threads is 180^(@) . (Ignore gravity). Reason : In equilibrium tension in the spring is T=1/(4pi epsi_(0)) (q.q)/l^(2)

Below the fixed end O of the insulating horizontal thread OB, there is a fixed charge A of Q = 20muc . At the end B of the thread there is a small mass m carrying charge Q = 20moc . The mass is released from the position shown and it is found to come to rest when the thread becomes vertical. Assume that the thread does not hit the fixed charge at A. [g = 10 m//s^2] (a) Find mass m. (b) Find tension in the thread in the equilibrium position when the thread is vertical. (c) Is the equilibrium mentioned in (b) stable or unstable?

A neutron breaks into a proton and electorn. Calculate the eenrgy produced in this reaction in m_(e) = 9 xx 10^(-31) kg, m_(p) = 1.6725 xx 10^(-27) kg, m_(n) = 1.6747 xx 10^(-27) kg, c = 3xx10^(8)m//sec .

Two small spherical balls each carrying a charge Q= 10 mu C ( 10 micro=coulomb) are suspended by two insulating threads of equal lengths 1 cm each, from a point fixed in the ceiling. It is found that in equilibrium threads are sepreated by an angle 60^(@) between them, as shown in figure. What is the tension in the threads (Given (1)/(4piepsilon_(0))= 9xx10^(9)Nm//C^(2) )

Calculate the speed of the electron in the first Bohr orbit given that h=6.6xx10^(-34) Js, m=9.11xx10^(-31) kg and e=1.603xx10^(-19) C .

A uniform electric field of intensity E = 10^(6) V//m exist in vertically downwards direction in a region. A particle of mass m = 0.01 kg andcharge q= 10^(-6) C is suspended byan inextensible thread oflength I= 1m . The particle is displaced slightly from its mean position and released. Calculate the time period ofits oscillation. What minimum velocity should be given to the particle at rest from its equilibrium position so that it completes a full circle in vertical plane? Calculate the maximum and minimum tension in the thread in its circular motion in vertical plane. [0.6s, 23.42 m//s, 6.59 N,0]

A solid sphere of mass m=2 kg and density rho=500kg//m^(3) is held stationary relative to a tank filled with water. The tank is acceerating upward with acceleration 2m//s^(2) . Calculate (a) Tension in the thread connected between the sphere and the bottom of the tank. (b) If the thread snaps, calculate the acceleration of sphere with respect to the tank. (Density of water =1000kg//m^(3),g=10m//s^(2))