51 - Electric Field and Potential Questions Answers

Physics >> Electricity >> Electric Field and Potential IIT JEE

Sir this is figure given in question. Question: Electric field lines of portion of an electric field that is symmetrical with respect to rotation about y-axis are show in the figure. A charge particle stays in equilibrium at point (0,10). If modulus of charge of the particle is changed gradually till it shifts to another equilibrium position (0,0),estimate fractional change in the charge modulus. Options : A) 1/3 B)2/3 C)1/9 D)8/9

Asked By: MUDIT

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Physics >> Electricity >> Electric Field and Potential IIT JEE

Answer in lower image .Dear Sir,Kindly help solve.

Asked By: RK GUPTA

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Physics >> Electricity >> Electric Field and Potential IIT JEE

Asked By: ABHISHEK

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All options are dimensionally incorrect. Please rectify.

Physics >> Electricity >> Electric Field and Potential IIT JEE

Derive the expression or show that:Path independence of line integral of electrostatic field,, conservative nature of electrostatic force.

Asked By: SANJAY

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Physics >> Electricity >> Electric Field and Potential IIT JEE

Asked By: TUSHAR GUPTA

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Physics >> Electricity >> Electric Field and Potential IIT JEE

Find potential energy of disc having charge density sigma uniformly distributed on its surface,radius R

Asked By: AKASH MAURYA

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Let potential of a disc of radius x is V. For this, see video given below

Now potential energy of this disc with a circular layer of charge $2 πxdxσ is V 2 πxdxσ put the value of V and integrate inform for any problem$

Physics >> Electricity >> Electric Field and Potential IIT JEE

Asked By: SRIJAN

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$W e k n o w t h a t \sum_{p l a n e} E d S \cos θ = \frac{q}{6 ε_{0}} (1) a n d N e t f o r c e o n t h e p l a n e = \sum_{p l a n e} F_{⊥} d Q = \sum_{p l a n e} q E \cos θ d S σ = \frac{Q}{d^{2}} \sum_{p l a n e} q E \cos θ d S (2) N o w s o l v e e q . (1) a n d (2)$

Physics >> Electricity >> Electric Field and Potential IIT JEE

A hollow spherical shell of radius r has a uniform charge density sigma. It is kept in a cube of edge 3r such that the center of the cube coincides with the centre of the shell. The electric flux coming out of a face of the cube is

Sir pls sove

Asked By: KANDUKURI ASHISH

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$T o t a l f l u x i n 6 f a c e s = \frac{σ 4 π r^{2}}{ε_{0}} s o i n 1 f a c e = \frac{1}{6} \frac{σ 4 π r^{2}}{ε_{0}}$ if any issue, inform

Physics >> Electricity >> Electric Field and Potential IIT JEE

A solid conducting sphere of radius R is placed in a uniform electric field E as shown in figure-1.441. Due to electric field non uniform surface charges are induced on the surface of the sphere. Consider a point A on the surface of sphere at a polar angle θ from the direction of electric field as shown in figure. Find the surface density of induced charges at point A in terms of electric field and polar angle θ.

Asked By: DEBRAJ SAHA

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To nullify the electric field inside, the conducting sphere creates a situation in which electric field inside due to charge on sphere would be same as that of given electric field. Now this is the case, which is same as Irodov 3.17.

See the video now

link:

Finally $E = \frac{σ_{0}}{3 ε_{0}} = \frac{σ}{3 ε_{0} \cos θ} N o w s o l v e$

Physics >> Electricity >> Electric Field and Potential IIT JEE

a small ball of mass 1kg and a charge 2/3 uC is placed at the center of a uniformly charged sphere of radius 1m and charge 1/3 mC. a narrow smooth horizontal groove is made in the sphere from centre to surface as shown in figure. the sphere is made to rotate about its vertical diameter at a constant rate of 1/2pi revolutions per second. find the spedd w.r.t ground with which the ball slide out from the groove. neglect any magnetic force acting on ball?

Asked By: VISHNU VARDHAN

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$P o t e n t i a l d i f f e r e n c e f r o m c e n t r e t o s u r f a c e = 3 V / 2 - V = V / 2 h e r e V = k q / r (q i s c h a r g e o f s p h e r e) m {v_{r}}^{2} / 2 = V Q / 2 (Q i s c h a r g e o f p a r t i c l e) v_{r} i s r a d i a l v e l o c i t y B e s i d e s \tan g e n t i a l v e l o c i t y d u e t o r o t a t i o n o f s p h e r e = r ω = r 2 π n n o w s o l v e$

51 - Electric Field and Potential Questions Answers

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