A charge of -0.150 C (i.e., q) experiences a maximum Magnetic Force B, pointing to the top of this page (i.e., Fmax 1). An external Magnetic Field of 0.250 T is pointing to the right along this page (i.e., B- →→). The charge is traveling perpendicular to the external Magnetic Field (i.e., VLB). The charge experiences a maximum Magnetic Force of 15.0 N (i.e., FB, max .). Calculate the charge's Speed [v, {m/s}]. You will need the following formula: FB, max = q*v*B ext Calculate the direction for the charge's Velocity vector (up, down, left, right, into the page, out of the page) (i.e., F.max 1; B; -90 ⇒ V?). B, ext
A charge of -0.150 C (i.e., q) experiences a maximum Magnetic Force B, pointing to the top of this page (i.e., Fmax 1). An external Magnetic Field of 0.250 T is pointing to the right along this page (i.e., B- →→). The charge is traveling perpendicular to the external Magnetic Field (i.e., VLB). The charge experiences a maximum Magnetic Force of 15.0 N (i.e., FB, max .). Calculate the charge's Speed [v, {m/s}]. You will need the following formula: FB, max = q*v*B ext Calculate the direction for the charge's Velocity vector (up, down, left, right, into the page, out of the page) (i.e., F.max 1; B; -90 ⇒ V?). B, ext
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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![A charge of -0.150 C (i.e., q) experiences a maximum Magnetic Force
pointing to the top of this page (i.e., Fmax 1). An external Magnetic
Field of 0.250 T is pointing to the right along this page (i.e., Bext→ ) .
The charge is traveling perpendicular to the external Magnetic Field
(i.e., VIB).
The charge experiences a maximum Magnetic Force of 15.0 N (i.e., FB, max ).
Calculate the charge's Speed [v, {m/s}]. You will need the following
formula: FB, max = q*v*B ext
Calculate the direction for the charge's Velocity vector (up, down, left,
right, into the page, out of the page) (i.e., FB, max ↑ ; Bex → ; −40 ⇒ V?).](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0a5096d9-affb-4851-81d5-04d1f460d244%2Fbbaa6b22-8a86-45c3-ba6c-d4e4fc15edb6%2Fz8p3bkr_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A charge of -0.150 C (i.e., q) experiences a maximum Magnetic Force
pointing to the top of this page (i.e., Fmax 1). An external Magnetic
Field of 0.250 T is pointing to the right along this page (i.e., Bext→ ) .
The charge is traveling perpendicular to the external Magnetic Field
(i.e., VIB).
The charge experiences a maximum Magnetic Force of 15.0 N (i.e., FB, max ).
Calculate the charge's Speed [v, {m/s}]. You will need the following
formula: FB, max = q*v*B ext
Calculate the direction for the charge's Velocity vector (up, down, left,
right, into the page, out of the page) (i.e., FB, max ↑ ; Bex → ; −40 ⇒ V?).
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