(Figure 3) shows 3 situations in which a charge enters a uniform magnetic field B (Indicated by the big BROWN dots) . The green arrows indicate the directions of the velocity vector ü q = 1.2x10-6 C v = 6.0x105 m/s B=1.72 T Remember: When stating a direction, all directions are with respect to the page (or screen). Part D - In Figure 3 case (f) (Bottom LEFT) calculate the magnitude of the magnetic force on the Positve moving charge. Enter a regular number with 3 digits after the decimal point. Unit is Newton (no need to enter) (f) 10° Bo 3
(Figure 3) shows 3 situations in which a charge enters a uniform magnetic field B (Indicated by the big BROWN dots) . The green arrows indicate the directions of the velocity vector ü q = 1.2x10-6 C v = 6.0x105 m/s B=1.72 T Remember: When stating a direction, all directions are with respect to the page (or screen). Part D - In Figure 3 case (f) (Bottom LEFT) calculate the magnitude of the magnetic force on the Positve moving charge. Enter a regular number with 3 digits after the decimal point. Unit is Newton (no need to enter) (f) 10° Bo 3
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Transcribed Image Text:(Figure 3) shows 3 situations in which a charge enters a uniform magnetic field B (indicated by the big
BROWN dots). The green arrows indicate the directions of the velocity vector v
q = 1.2x10-6 C v = 6.0x105 m/s B = 1.72 T
Remember: When stating a direction, all directions are with respect to the page (or screen).
Part D - In Figure 3 case (f) (Bottom LEFT) calculate the magnitude of the magnetic force on the
Positve moving charge.
Enter a regular number with 3 digits after the decimal point. Unit is Newton (no need to enter)
(f)
10°
Bot
3
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