A charged particle of mass m = 57.2 g and charge q = +2.14 µC is attached to a massless string of length { = 25.5 cm and spun in circular motion with w = 7.85 rad/s. At the moment shown the charged particle is passing through an electric field of strength E = 3.91 × 105 N/C that is angled above the horizontal direction at an angle of ø = 18.3°. E m, q

icon
Related questions
Question
100%
A charged particle of mass m = 57.2 g and charge q = +2.14 µC is attached to a massless string of
length e = 25.5 cm and spun in circular motion with w = 7.85 rad/s. At the moment shown the
charged particle is passing through an electric field of strength E = 3.91 × 105 N/C that is angled
above the horizontal direction at an angle of ø
= 18.3°.
E
m, q
Transcribed Image Text:A charged particle of mass m = 57.2 g and charge q = +2.14 µC is attached to a massless string of length e = 25.5 cm and spun in circular motion with w = 7.85 rad/s. At the moment shown the charged particle is passing through an electric field of strength E = 3.91 × 105 N/C that is angled above the horizontal direction at an angle of ø = 18.3°. E m, q
2.
Using the same values of angular velocity, electric field strength, particle
charge, particle mass and string length, what angle would the electric field need in
order for the string to be at an angle of 1.00° with the vertical?
What would happen to the translational velocity of the particle after it
rotated through 4 of a revolution following the moment shown. Assume that the
angular velocity w remains constant and the electric field only points in the plane of the
3.
page as shown.
Transcribed Image Text:2. Using the same values of angular velocity, electric field strength, particle charge, particle mass and string length, what angle would the electric field need in order for the string to be at an angle of 1.00° with the vertical? What would happen to the translational velocity of the particle after it rotated through 4 of a revolution following the moment shown. Assume that the angular velocity w remains constant and the electric field only points in the plane of the 3. page as shown.
Expert Solution
trending now

Trending now

This is a popular solution!

steps

Step by step

Solved in 4 steps with 2 images

Blurred answer