takes time t2 to move through an equal distance in this uniform electric field. Neglecting the effect of gravity
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An electron of mass me, initially at rest, moves through a certain distance in a uniform electric field in time t1 A proton of mass mp, also, initially at rest, takes time t2 to move through an equal distance in this uniform electric field. Neglecting the effect of gravity, the ratio t2/t1 l is nearly equal to
01
Dec
An electron of mass me, initially at rest, moves through a certain distance in a uniform electric field in time t1 A proton of mass mp, also, initially at rest, takes time t2 to move through an equal distance in this uniform electric field. Neglecting the effect of gravity, the ratio t2/t1 l is nearly [...]
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also ,
An electron of mass me ,
initially at rest ,
moves through a certain distance in a uniform electric field in time t1 A proton of mass mp ,
takes time t2 to move through an equal distance in this uniform electric field. Neglecting the effect of gravity ,
the ratio t2/t1 l is nearly equal to ,
An electron of mass me, initially at rest, moves through a certain distance in a uniform electric field in time t1 A proton of mass mp, also, initially at rest, takes time t2 to move through an equal distance in this uniform electric field. Neglecting the effect of gravity, the ratio t2/t1 l is nearly equal to
30
Nov
An electron of mass me, initially at rest, moves through a certain distance in a uniform electric field in time t1 A proton of mass mp, also, initially at rest, takes time t2 to move through an equal distance in this uniform electric field. Neglecting the effect of gravity, the ratio t2/t1 l is nearly [...]
Tags:
also ,
An electron of mass me ,
initially at rest ,
moves through a certain distance in a uniform electric field in time t1 A proton of mass mp ,
takes time t2 to move through an equal distance in this uniform electric field. Neglecting the effect of gravity ,
the ratio t2/t1 l is nearly equal to ,