A uniform electric field E is established between two parallel charged plates as shown in figure. An electron enter the field symmetrically between the plates with a speed u. The length of each plate is l. if the electron does not stricke any of the plates, find the angle of deviation of the electron as it comes out of the field at the outer end of plates. `[tan^(-1) ((eEl)/(mu^(2)))]`

A uniform electric field E is created between two parallel ., charged plates as shown in figure . An electron . enters the field symmetrically between the plataes with a . speed v_0. The length of each plate is l. Find the angle of . deviation of the path of the electron as it comes out . of the field.

A uniform electric field E is created between two parallel ., charged plates as shown in figure . An electron . enters the field symmetrically between the plataes with a . speed v_0. The length of each plate is l. Find the angle of . deviation of the path of the electron as it comes out . of the field.

A uniform electric field E is created between two parallel ., charged plates as shown in figure . An electron . enters the field symmetrically between the plataes with a . speed v_0. The length of each plate is l. Find the angle of . deviation of the path of the electron as it comes out . of the field.

A uniform electric field E is created between two parallel ., charged plates as shown in figure . An electron . enters the field symmetrically between the plates with a . speed v_(0)'. The length of each plate is l. Find the angle of . deviation of the path of the electron as it comes out . of the field.

A uniform electric field E is created between two parallel ., charged plates as shown in figure . An electron . enters the field symmetrically between the plataes with a . speed v_0. The length of each plate is l. Find the angle of . deviation of the path of the electron as it comes out . of the field. θ = tan − 1 E l m v 2 0 θ = tan − 1 ( e E l m v 2 0 ) θ = tan − 1 ( e E l m v 0 ) θ = tan − 1 ( e E m v 2 0 )

A uniform electric field E=91xx10^(-6) V//m is created between two parallel, charged plates as shown in figure. An electron enters the field symmetrically between the plates with a speed v_(0)=4xx10^(3) m//s . The length of each plates is l=1m . Find the angle of deviation of the path of the electron as it comes out of the field. (Mass of the electron is m=9.1xx10^(-31) kg and its charge is e=-1.6xx10^(-19) C ).

The electric field (vec( E)) between two parallel plates of a capacitor will be uniform if.