the electric field E→2 is also uniform over the entire face and is directed into that face (as shown in figure). The two faces in question are inclined at 30∘ from the horizontal
Sahay Sir > Question Answers > the electric field E→2 is also uniform over the entire face and is directed into that face (as shown in figure). The two faces in question are inclined at 30∘ from the horizontal
The electric field E→1 at one face of a parallelopiped is uniform over the entire face and is directed out of the face. At the opposite face, the electric field E→2 is also uniform over the entire face and is directed into that face (as shown in figure). The two faces in question are inclined at 30∘ from the horizontal, E→1andE→2(both horizontal) have magnitudes of 2.50×10^4NC−1 and 7.00×10^4NC−1. respectively. Assuming that no other electric field lines cross the surfaces of the parallelopiped, the net charge contained with in is
06
Dec
The electric field E→1 at one face of a parallelopiped is uniform over the entire face and is directed out of the face. At the opposite face, the electric field E→2 is also uniform over the entire face and is directed into that face (as shown in figure). The two faces in question are inclined [...]
Tags:
E→1andE→2(both horizontal) have magnitudes of 2.50×10^4NC−1 and 7.00×10^4NC−1. respectively. Assuming that no other electric field lines cross the surfaces of the parallelopiped ,
The electric field E→1 at one face of a parallelopiped is uniform over the entire face and is directed out of the face. At the opposite face ,
the electric field E→2 is also uniform over the entire face and is directed into that face (as shown in figure). The two faces in question are inclined at 30∘ from the horizontal ,
the net charge contained with in is ,
The electric field E1 at one face of a parallelopiped is uniform over the entire face and is directed out of the face. At the opposite face, the electric field E→2 is also uniform over the entire face and is directed into that face (as shown in figure). The two faces in question are inclined at 30∘ from the horizontal, E→1 and E→2(both horizontal) have magnitudes of 2.50×104NC−1 and 7.00 × 10^4 N/C. respectively. Assuming that no other electric field lines cross the surfaces of the parallel lopiped, the net charge contained with in is
31
Oct
The electric field E1 at one face of a parallelopiped is uniform over the entire face and is directed out of the face. At the opposite face, the electric field E→2 is also uniform over the entire face and is directed into that face (as shown in figure). The two faces in question are inclined [...]
Tags:
E→1 and E→2(both horizontal) have magnitudes of 2.50×104NC−1 and 7.00 × 10^4 N/C. respectively. Assuming that no other electric field lines cross the surfaces of the parallel lopiped ,
the electric field E→2 is also uniform over the entire face and is directed into that face (as shown in figure). The two faces in question are inclined at 30∘ from the horizontal ,
The electric field E1 at one face of a parallelopiped is uniform over the entire face and is directed out of the face. At the opposite face ,
the net charge contained with in is ,