An electron of mass Me, initially at res...

An electron of mass `M_e`, initially at rest, moves through a certain distance in a uniform electric field in time `t_1`. A proton of mass `M_p` also initially at rest, takes time `t_2` to move through an equal distance in this uniform electric field. Neglecting the effect of gravity, the ratio `t_2//t_1` is nearly equal to

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An electron of mass m_(e ) initially at rest moves through a certain distance in a uniform electric field in time t_(1) . A proton of mass m_(p) also initially at rest takes time t_(2) to move through an equal distance in this uniform electric field.Neglecting the effect of gravity, the ratio of t_(2)//t_(1) is nearly equal to

An electron of mass m_(e ) initially at rest moves through a certain distance in a uniform electric field in time t_(1) . A proton of mass m_(p) also initially at rest takes time t_(2) to move through an equal distance in this uniform electric field.Neglecting the effect of gravity, the ratio of t_(2)//t_(1) is nearly equal to

An electron of mass m_(e ) initially at rest moves through a certain distance in a uniform electric field in time t_(1) . A proton of mass m_(p) also initially at rest takes time t_(2) to move through an equal distance in this uniform electric field.Neglecting the effect of gravity, the ratio of t_(2)//t_(1) is nearly equal to

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एक इलेक्ट्रान जिसका द्रव्यमान me है प्रारम्भ में विराम अवस्था में है। ...
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