A particle of charge +q and mass m is ejected from the point P with the initial velocity = 30i + 20j(), traveling in a parabolic orbit with a maximum height d = 2cm in the uni form electric field and hitting the point Q at a distance of L= 10cm. Since the distance between the plates is 2d and the potential difference is 1000V. find the ratio of the particle's charge to its mass (q/m). (Ignore the gravitational force). %3D %3D
A particle of charge +q and mass m is ejected from the point P with the initial velocity = 30i + 20j(), traveling in a parabolic orbit with a maximum height d = 2cm in the uni form electric field and hitting the point Q at a distance of L= 10cm. Since the distance between the plates is 2d and the potential difference is 1000V. find the ratio of the particle's charge to its mass (q/m). (Ignore the gravitational force). %3D %3D
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Transcribed Image Text:2d
...
P.
V.
A particle of charge +q and mass m is ejected from the point P with the initial
velocity
- 2cm in the uniform electric field and hitting the point Q at a distance of
L= 10cm. Since the distance between the plates is 2d and the potential difference
is 1000V, find the ratio of the particle's charge to its mass (/m). (Ignore the
gravitational force).
- 30 + 20/(). traveling in a parabolic orbit with a maximum beight
():
b) 48. 10- (
a) 16. 10-2
c) 96. 10 2
10()
di 160 10
e) 240. 10 (E)
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