Solve Physics Problems with Help from Experts | Physics HELP! PLSSS!

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This discussion focuses on solving two physics problems involving electrical circuits. The first problem requires calculating the power dissipated in a 125 W heater when the voltage is decreased from 120 V to 112 V. The second problem involves a 5.2 F capacitor charged to 140 V connected across a 450 Ω resistor, with specific calculations for initial charge, current, time constant, and charge after 5.1 ms. The solutions provided include using the resistance formula and the exponential decay formula for charge over time.

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HELP! PLSSS! - Physics

Hi All,
I badly need helpwith the below 2 questions... as for question 2, I worked out part a-c but I'm unable to complete part d... pls help and correct me if I am wrong.

really appreciate it!

cseet

1. A 125 W heater is designed to operate with an emf of 120 V.
Find the approximate power dissipated in the heater if the potential difference is decreased to 112 V. (Unit: W)

can somebody help me up with this?

2. A 5.2 F capacitor is charged to 1.4E2 V and is then connected across a 4.5E2 resistor. Answer the following questions:
All answers must have three significant digits unless otherwise specified.

(a) What is the initial charge on the capacitor? (Unit: microcoulombs, uC)
answer: 728 uC

(b) What is the initial current just after the capacitor is connected to the resistor? (Unit: milliamperes, mA)
answer: 311 mA

(c) What is the time constant of this circuit? (Unit: milliseconds, ms)
answer: 2.34 ms

but I'm Stuck on this question...
(d) How much charge is on the capacitor after 5.1 ms? (Unit: microcoulombs, uC)
can somebody help me up with this??

thanks again!
cseet
 
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For #1: First find the resistance of the heater using the rated values for power and voltage. Now find the new power dissipated when the voltage is reduced.

For #2d: You found the time constant Τ, now use it. The charge at time t is: Q = Q0e(-t/Τ).
 
re

Hi Doc Al,

thanks so much! you're a gem!
cseet
 

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