0.00 K/s . 41%,= 2:06 our answe A 3.00 M resistor and a 1.00 mF capacitor are co
ID: 1585519 • Letter: 0
Question
0.00 K/s . 41%,= 2:06 our answe A 3.00 M resistor and a 1.00 mF capacitor are connected in series with an ideal battery of emf V. At one second after the connection is made, what is the RATE at which (a) thermal energy is appearing in the resistor, and (b) energy is being delivered by the battery? Multiply all your answers by 10 million. All answers should be in Watts. Each part is worth a mark. please write the part name in front of answer for correction. Please do not upload solution to this question in the image upload Your answer An 90.0 kg spacewalking astronaut pushes off a 660 kg satellite, exerting a 85.0 N force for the 0.590 s it takes him to straighten his arms. Find the finalExplanation / Answer
a)
Time Constant
T=RC=3*106*1*10-3=3000 s
The Charging rate is given by
I=Ioe-t/T=(V/3*106)e-1/3000=(3.3322*10-7)V
P=I2R =(3.3322*10-7V)2*(3*106)
P=(3.3311*10-7)V2
b)
P=VI =(3.3322*10-7V)*V=3.3322*10-7V2
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