Four infinite planes intersect each other forming a tetrahedron. Three 5. adjacent edges meeting on the vertex O of the tetrahedron are of equal length I and the face opposite to the vertex O is an equilateral triangle of edge b. Each plane is uniformly charged with positive surface charge density o. A particle of mass m and positive charge q is held at rest within the tetrahedron on the line of symmetry through the vertex O at distance d from the lower face as shown in the figure. For better readability, complete planes are not shown. With what speed will the particle collide with the tetrahedron, after it is released? Consider that the charges on the planes remain immobile and neglect gravity. d

Four infinite planes intersect each other forming a tetrahedron. Three 5. adjacent edges meeting on the vertex O of the tetrahedron are of equal length I and the face opposite to the vertex O is an equilateral triangle of edge b. Each plane is uniformly charged with positive surface charge density o. A particle of mass m and positive charge q is held at rest within the tetrahedron on the line of symmetry through the vertex O at distance d from the lower face as shown in the figure. For better readability, complete planes are not shown. With what speed will the particle collide with the tetrahedron, after it is released? Consider that the charges on the planes remain immobile and neglect gravity. d

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Question

Kindly check the answer mentioned in 2nd picture before submitting the solution. Kindly ensure the same.

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. Four infinite planes intersect each other forming a tetrahedron. Three
adjacent edges meeting on the vertex O of the tetrahedron are of equal
length I and the face opposite to the vertex O is an equilateral triangle
of edge b. Each plane is uniformly charged with positive surface charge
density o. A particle of mass m and positive charge q is held at rest
within the tetrahedron on the line of symmetry through the vertex O at
distance d from the lower face as shown in the figure. For better
readability, complete planes are not shown. With what speed will the
particle collide with the tetrahedron, after it is released? Consider that
the charges on the planes remain immobile and neglect gravity.
d
b.

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me
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<l<b Hit the bottom
Stays Immobile
b/3
Hit the top corner
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V412 -b
3.
2.

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