2d d P+ V. A particle of charge +ą and mass m is ejected from the point P with the initial velocity i = 60î + 50f(m), traveling in a parabolic orbit with a maximum height d = 2cm in the uniform...

2d<br>d<br>P+<br>V.<br>A particle of charge +ą and mass m is ejected from the point P with the initial<br>velocity i = 60î + 50f(m), traveling in a parabolic orbit with a maximum height<br>d = 2cm in the uniform electric field and hitting the point Q at a distance of<br>L = 10cm. Since the distance between the plates is 2d and the potential difference<br>is 1000V, find the ratio of the particle's charge to its mass (q/m). (Ignore the<br>gravitational force).<br>a) 16. 10-2 (C<br>kg<br>b) 48. 10-2<br>kg<br>c) 96. 10-2 (C)<br>kg<br>d) 160. 10-2 (C<br>kg<br>e) 240. 10-2<br>kg<br>

Extracted text: 2d d P+ V. A particle of charge +ą and mass m is ejected from the point P with the initial velocity i = 60î + 50f(m), traveling in a parabolic orbit with a maximum height d = 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 (q/m). (Ignore the gravitational force). a) 16. 10-2 (C kg b) 48. 10-2 kg c) 96. 10-2 (C) kg d) 160. 10-2 (C kg e) 240. 10-2 kg

Jun 11, 2022

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2d d P+ V. A particle of charge +ą and mass m is ejected from the point P with the initial velocity i = 60î + 50f(m), traveling in a parabolic orbit with a maximum height d = 2cm in the uniform...

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