The charge on a capacitor in a circuit is found to vary as a function of time as Q(t) = Qo cos(wt - p). What is the current through the capacitor (or, if you are picky, current through the wires connecting the capacitor) as a function of time? Let positive value of current be the flow of charge that increases the charge separation on the capacitor in the original direction. Hint The current through the capacitor is I(t) (Give your answer in terms of given variables (Qo, w, t, and/or o). Use underscore ("_") for subscripts and spell out Greek letters.) Question Help: Message instructor Submit Question

Can you please help me with both, greatly appreciated!

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2 The charge on a capacitor in a circuit is found to vary as a function of time as Q(t) = Qo cos(wt - p). What is the current through the capacitor (or, if you are picky, current through the wires connecting the capacitor) as a function of time? Let positive value of current be the flow of charge that increases the charge separation on the capacitor in the original direction. Hint The current through the capacitor is I(t) (Give your answer in terms of given variables (Qo, w, t, and/or ). Use underscore ("_") for subscripts and spell out Greek letters.) Question Help: Message instructor Submit Question #3 3 80 F3 E D 54 $ 4 F4 R F 978 % 5 F5 T G 6 MacBook Air F6 Y & A E F7 U * 00 DII F8 - ( 9 DD F9 O ) 0 H J K L A F10 P

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F2 V The quantity of charge through a conductor is modeled as Q = 0.004t -0.015t +6.00 mc. What is the current at time t = 3.73 s? I(t = 3.73s) Question Help: Message instructor Submit Question #3 80 F3 E S4 $ MA 4 F4 R % 5 F5 T ^ 6 MacBook Air SA F6 Y & 7 F7 U * 8 DII F8 1 9 DD F9 0 ) O