at θ=180∘ we see that Fnet=2F0. (a) For the situation corresponding to curve 1
Sahay Sir > Question Answers > at θ=180∘ we see that Fnet=2F0. (a) For the situation corresponding to curve 1
A square loop of side ‘l’ each side having uniform linear charge density ‘lambda’ is placed in ‘xy’ lane as shown in the figure There exists a non uniform electric field E→=al(x+l)iˆ where a and l are constants and x is the position of the point from origin along x-axis. Find the resultant electric force on the loop (in Newtons) if l=10 cmλ=20μ C/m
15
Sep
A square loop of side ‘l’ each side having uniform linear charge density ‘lambda’ is placed in ‘xy’ lane as shown in the figure There exists a non uniform electric field E→=al(x+l)iˆ where a and l are constants and x is the position of the point from origin along x-axis. Find the resultant electric force [...]
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at θ=180∘ we see that Fnet=2F0. (a) For the situation corresponding to curve 1 ,
nonconductive walls ,
the bead move ,
Two identical small balls each have a mass m and charge q. When placed in a hemispherical bowl of radius R with frictionless ,
what is that ratio? ,
what is the ratio of the charge of particle C to that of particle B (including sign)? (b) For the situation corresponding to curve 2 ,
Two identical small balls each have a mass m and charge q. When placed in a hemispherical bowl of radius R with frictionless, nonconductive walls, the bead move, and at equilibrium the line joining the balls is horizontal and the distance between them is R (see figure). Neglect any induced charge on the hemispherical bowl. Then the charge on each bead is : (here K = 1/ 4πε0)
15
Sep
Two identical small balls each have a mass m and charge q. When placed in a hemispherical bowl of radius R with frictionless, nonconductive walls, the bead move, and at equilibrium the line joining the balls is horizontal and the distance between them is R (see figure). Neglect any induced charge on the hemispherical bowl. [...]
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at θ=180∘ we see that Fnet=2F0. (a) For the situation corresponding to curve 1 ,
nonconductive walls ,
the bead move ,
Two identical small balls each have a mass m and charge q. When placed in a hemispherical bowl of radius R with frictionless ,
what is that ratio? ,
what is the ratio of the charge of particle C to that of particle B (including sign)? (b) For the situation corresponding to curve 2 ,
Three similar charges +q are placed on 3 corners of an equilateral triangle ABC of side a. How many minimum charges should be placed on a circle of radius a with centre at A so that resultant force on the charge placed at the centre is q^2 / 4πε0a2 along x-axis,
15
Sep
Three similar charges +q are placed on 3 corners of an equilateral triangle ABC of side a. How many minimum charges should be placed on a circle of radius a with centre at A so that resultant force on the charge placed at the centre is q^2 / 4πε0a2 along x-axis, at θ=180∘ we see [...]
Two small spheres of masses M1 and M2 are suspended by weightless insulating threads of lengths L1 and L2. The speres carry charges Q1 and Q2 respectively. The spheres are suspended such that they are in level with one another adn the threads are inclined to the verticle at angles θ1 and θ2 respectively . Which one of the following conditions is essential for θ1 = θ2 ?
15
Sep
Two small spheres of masses M1 and M2 are suspended by weightless insulating threads of lengths L1 and L2. The speres carry charges Q1 and Q2 respectively. The spheres are suspended such that they are in level with one another adn the threads are inclined to the verticle at angles θ1 and θ2 respectively . [...]
In the configuration as shown +q charge is placed at origin and Q and Q are placed at distance a and a0 respectively from origin. If net electrostatic force on charge (+q) is along negative y-axis and θ = θ2/2, then ( Q / Q) is equal to:
15
Sep
In the configuration as shown +q charge is placed at origin and Q and Q are placed at distance a and a0 respectively from origin. If net electrostatic force on charge (+q) is along negative y-axis and θ = θ2/2, then ( Q / Q) is equal to: at θ=180∘ we see that Fnet=2F0. (a) [...]
Two positive point charges each of magnitude 10 C are fixed at positions A &B at a seperation 2 d = 6 m. A negatively charged particle of mass m = 90 gm and charge of magnitude 10 × 10^−6 C is revolving in a circular path of radius 4 m in the plane perpendicular to the line AB and bisecting the line AB. Neglect the effect of gravity. Find the angular velocity of the particle
15
Sep
Two positive point charges each of magnitude 10 C are fixed at positions A &B at a seperation 2 d = 6 m. A negatively charged particle of mass m = 90 gm and charge of magnitude 10 × 10^−6 C is revolving in a circular path of radius 4 m in the plane perpendicular [...]
Four point positive charges are held at the vertices of a square in a horizontal plane. Their masses are 1kg,2kg,3kg,&4kg. Another point positive charge of mass 10kg is kept on the axis of the sqaure. The weight of their fifth charge is balanced by the electrostatic force due to those four charges. If the four charge on the vertices are released such that they can freely move in any direction(vertical, horizontal etc.) then the acceleration of the centres of mass of the four charges immediately after the release is (Use g=10 m/s2)
15
Sep
Four point positive charges are held at the vertices of a square in a horizontal plane. Their masses are 1kg,2kg,3kg,&4kg. Another point positive charge of mass 10kg is kept on the axis of the sqaure. The weight of their fifth charge is balanced by the electrostatic force due to those four charges. If the four [...]
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2kg ,
3kg ,
at θ=180∘ we see that Fnet=2F0. (a) For the situation corresponding to curve 1 ,
Four point positive charges are held at the vertices of a square in a horizontal plane. Their masses are 1kg ,
what is that ratio? ,
what is the ratio of the charge of particle C to that of particle B (including sign)? (b) For the situation corresponding to curve 2 ,
Three charges are placed at the vertices of an equilateral triangle of side a as shown inb the following figure. The force experienced by the charge placed at the vertex A in a directtion normal to BC is
15
Sep
Three charges are placed at the vertices of an equilateral triangle of side a as shown inb the following figure. The force experienced by the charge placed at the vertex A in a directtion normal to BC is at θ=180∘ we see that Fnet=2F0. (a) For the situation corresponding to curve 1 what is that [...]
Two similar balloons filled with helium gas are tied to Lm long string. A body of mass m is tied to another ends of the strings. The balloons float on air at distance r. If the amount of charge on the ballons is same then the magnitude of charge on each balloon will be
15
Sep
Two similar balloons filled with helium gas are tied to Lm long string. A body of mass m is tied to another ends of the strings. The balloons float on air at distance r. If the amount of charge on the ballons is same then the magnitude of charge on each balloon will be at [...]
Two small balls having equal poistive charges Q( coulomb) on each are suspended by two insulating strings of equal length L(metre) from a hook fixed to a stand. The whole set up is taken in a satellite into space where there is no gravity (state of weightlessness). The angle between the two strings is.
15
Sep
Two small balls having equal poistive charges Q( coulomb) on each are suspended by two insulating strings of equal length L(metre) from a hook fixed to a stand. The whole set up is taken in a satellite into space where there is no gravity (state of weightlessness). The angle between the two strings is. at [...]