A. a neutron moving with a speed of 4.5 x 10 m/s B. an electron moving with a speed of 3.5 x 10 m/s C. a proton moving w

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A A Neutron Moving With A Speed Of 4 5 X 10 M S B An Electron Moving With A Speed Of 3 5 X 10 M S C A Proton Moving W 1 (62.45 KiB) Viewed 22 times

A. a neutron moving with a speed of 4.5 x 10 m/s B. an electron moving with a speed of 3.5 x 10 m/s C. a proton moving with a speed of 6.2 x 10 m/s D. an alpha particle moving with a speed of 2.7 x 10 m/s E. They all experience the same magnetic force magnitude. 10. In basic AC circuits we have examined this semester, the sinusoidal voltage in the circuit is described by V(t) = Vmax sin (wt). The signal amplitude is given by A. V(t) B. Vmax C. wt D. sin (wt) E. both B and D 11. The figure to the right shows a DC resistive circuit with a power supply AVs. What can you say about the current in the circuit over time? R, RA A. clockwise and decreasing B. counter-clockwise and constant C. counter-clockwise and increasing D. clockwise and increasing E. clockwise and constant F. counter-clockwise and decreasing ER CAV, G 12. At point G in the RC circuit above is just below the power supply. The current magnitude in the circuit is I. If we start at point G and apply Kirchhoff's voltage law, which is the correct form we should use? A R red ['B " AV, SRO -C AVC black G R2 A. +AV, + IR +AVE = 0 C. + IR2 -AVs + IR + AV. = 0 E. AVS - IR - AV. -IR2 =0 B. +AV, - IR-IR +AVE = 0 D. -AV, - IR - AV. - IR2 = 0 F. AVS - IR - AV. -IR=IR3 +