A proton falls dwon through a distance of 2 cm in a uniform electric field of magnitude `3.34xx10^(3) NC^(-1)`. Determine (i) the acceleration of the electron (ii) the time taken by the proton to fall through the distance of 2 cm, and (iii) the direction of the electric field.

An electron initially at rest falls a distance of 2 cm in a uniform electric field of magnitude 3 xx 10^(4) N C^(-1) . The time taken by the electron to fall to this distance is

An electron falls through a small distance in a uniform electric field of magnitude 2xx10^(4)NC^(-1) . The direction of the field reversed keeping the magnitude unchanged and a proton falls through the same distance. The time of fall will be

An electron falls through a small distance in a uniform electric field of magnitude 2xx10^(4)NC^(-1) . The direction of the field reversed keeping the magnitude unchanged and a proton falls through the same distance. The time of fall will be

An electron falls through a small distance in a uniform electric field of magnitude 2xx10^(4)NC^(-1) . The direction of the field reversed keeping the magnitude unchanged and a proton falls through the same distance. The time of fall will be

An electron initially at rest falls a distance of 1.5 cm in a uniform electric field of magnitude 2 xx10^(4) N//C . The time taken by the electron to fall this distance is

An electron initially at rest falls a distance of 1.5 cm in a uniform electric field of magnitude 2 xx10^(4) N//C . The time taken by the electron to fall this distance is

An electron initially at rest falls a distance of 1.5 cm in a uniform electric field of magnitude 2 xx10^(4) N//C . The time taken by the electron to fall this distance is

An electron falls through a distance of 2 cm ir a uniform electric field of magnitude 6.0 xx 10^4 NC^(-1) figure (a). The direction of the field is reversed keeping its magnitude unchanged and a proton falls through the same distance figure (b). Compute the time of fall ir each case. Contrast the situation with that oi 'free fall under gravity'. m_(e) = 9.1 xx 10^(-31)kg, m_(p) = 1.7 xx 10^(-27) kg and e = 1.6 xx 10^(-19) C

A proton falls through a small distance in a uniform electric field of magnitude 1.8xx10^5N/C . The direction of the field is reversed keeping the magnitude unchanged and an electron falls through the same distance. The time of fall will be