Use the following constants if necessary. Coulomb constant, k = 8.987×10^9 N⋅ m^2/C^2 . Vacuum permittivity, ϵ0 = 8.854×10^−12 F/m . Magnitude of the Charge of one electron, e = −1.60217662×10^−19 C . Mass of one electron, me = 9.10938356×10^−31 kg . Unless specified otherwise, each symbol carries their usual meaning. For example, μC means microcoulomb . Part IR,R2R3mCz3.Here, resistors have R1= 19KQ , R2 = 34KQ & R3=34KOresistances. And capacitances of the capacitors are C1= 44µFand C2 = 13µF. The emf of the battery is 9.0volts .%3D1. Find Equivalent resistance(Q) & Equivalent capacitance(F).Part II2. Calculate the current(Amp) through an RC circuit at time t=8milliseconds. If the emf, resistance and capacitance is given byE = 7 Volts, R = 33kQ, C = 2.2µC respectively.%3D

Answered: Image /qna-images/answer/14dc5f4e-2067-4472-bc87-26a101a0ec11.jpg

Part I R, R2 R3 Cz Here, resistors have R1= 19kQ , R2 = 34KQ & R3=34kQ %3D resistances. And capacitances of the capacitors are C1= 44µF and C2 = 13µF. The emf of the battery is 9.0volts . 1. Find Equivalent resistance(Q) & Equivalent capacitance(F). Part II 2. Calculate the current(Amp) through an RC circuit at time t=8 milliseconds. If the emf, resistance and capacitance is given by E = 7 Volts, R = 33KQ, C = 2.2µC respectively. %3D

Part I R, R2 R3 Cz Here, resistors have R1= 19kQ , R2 = 34KQ & R3=34kQ %3D resistances. And capacitances of the capacitors are C1= 44µF and C2 = 13µF. The emf of the battery is 9.0volts . 1. Find Equivalent resistance(Q) & Equivalent capacitance(F). Part II 2. Calculate the current(Amp) through an RC circuit at time t=8 milliseconds. If the emf, resistance and capacitance is given by E = 7 Volts, R = 33KQ, C = 2.2µC respectively. %3D

Related questions

Q: 27.26 A mad scientist invents a de- vice that is able to teleport every electron in their body to…

A: The magnitude of the gravitational attraction between the mad scientist's body (stripped of…

Q: One electron is separated from another electron by distance D. The electrostatic force between them…

Q: Two equal resistors are connected in series with a 9 volt battery. What is the potential difference…

A: Given Question 1 Two equal resistors connected in series with a 9 volt battery Two find out The…

Q: The charge carried by an electron is −1.60×10−19 C. Suppose that an electron moves through a voltage…

Q: 8. In a simple model of the hydrogen atom, an electron of mass m and charge e is considered to move…

Q: 2. A demonstration Van de Graaff generator has a 30.0-cm-diameter metal sphere that produces a…

Q: V An electron is to be accelerated in a uniform electric field having a strength of 2.1 10° 1. (a)…

Q: Titanium carbide (TiC) is used extensively for cutting tools because of its combination of wear…

Q: 11. What is the magnitude of the electric field 50 cm from an electron? (e--1.6x10^19C ; k=9x10^9…

A: Given data: Charge enclosed by Gaussian surface (q) = e = 8.85×10-8 C Coulomb constant (k) = 9×109…

Q: A small oil droplet levitates motionlessly in a uniform electric field. If the droplet has a mass of…

A: The magnitude and direction of the electric fieldE.given,massm=2.5×10-15 kgNo. of excess…

Q: L/₂ L/2 тогрест-2 L = 0.03 m 2 A = 0.000 m -6 мсти

A: Given: The distance between the two plates is L = 0.03 m The area of the plate is A = 0.0009 m2 The…

Q: Use the following constants if necessary. Coulomb constant, k = 8.987 x 10° N - m² /C². Vacuum…

Q: What is the electrical charge of 1.78 x 10^8 protons? O + 2.85 x 10^-11 C O + 1.78 x 10^8 C O + 1.60…

Q: A proton (q = 1.60 × 1019 C) moves 10.0 cm on a path parallel to the direction of a uniform electric…

A: Given The charge of the proton is q=1.6×1019 C. The distance traveled by the proton is d=10…

Q: The distance between the two protons is 2.0 x 10-10 m. The electrical force between these particles…

A: We know that force between two charges seperated by distance r is F= Kq1q2r2.....(1)

Q: A hydrogen atom contains a single electron that moves in a circular orbit about a single proton.…

A: Speed, v = 6.6 x 105 m/s Charge of electron and proton, q = 1.6×10-19 C Radius, r = ?

Q: 2. Four point-charges {q,-q, q,-9} are located on the z-axis at -20 + a/2 and -zo – a/2,…

A: Given, there are four electrostatic charges q,-q, q,-q at the position z0+a2, z0-a2,-z0+a2 ,- z0-a2…

Q: (a) Calculate its kinetic energy in joules at 1.20% of the speed of light. ANS: 4.302 x 10^-14 J…

A: Given: Mass of helium nucleus =6.64 x 10-27 Kg 1.20% of the speed of light Formula used: Kinetic…

Question

Use the following constants if necessary. Coulomb constant, k = 8.987×10^9 N⋅ m^2/C^2 . Vacuum permittivity, ϵ0 = 8.854×10^−12 F/m . Magnitude of the Charge of one electron, e = −1.60217662×10^−19 C . Mass of one electron, me = 9.10938356×10^−31 kg . Unless specified otherwise, each symbol carries their usual meaning. For example, μC means microcoulomb .

Part I
R,
R2
R3
m
Cz
3.
Here, resistors have R1= 19KQ , R2 = 34KQ & R3=34KO
resistances. And capacitances of the capacitors are C1= 44µF
and C2 = 13µF. The emf of the battery is 9.0volts .
%3D
1. Find Equivalent resistance(Q) & Equivalent capacitance(F).
Part II
2. Calculate the current(Amp) through an RC circuit at time t=8
milliseconds. If the emf, resistance and capacitance is given by
E = 7 Volts, R = 33kQ, C = 2.2µC respectively.
%3D

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step by step

Solved in 2 steps with 3 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

What is the charge on C3 Due this Friday, Sep 29 at 11:59 pm (EDT) V. C₂ C3 C₁ Submit Answer Tries 0/10 C4 C₁ = 8.7 μF, C₂ = 8.2 μF, C3 = 14.9 μF and C4 µF, = 14.9 µF and C4 = 12.7 µF. If the applied voltage is 34.2 V, what is the charge on С3?
one gram of copper has 9.48x10^21 atoms, and each copper atom has 29 eletrons. what is the total charge of these electrons
6. The next 5 questions all have to do with the diagram shown, on which I have placed an electron at the origin. The grid spacing is 1 Angstrom per small square. Now place an atomic nucleus with 8 protons on positive x-axis, at x = 7.6 Angstroms. How much work did it take you to bring this nucleus in from 1 m away? 22.7 eV 11.4 eV 15.1 eV 7.6 eV
Which of the following two statements is true? A or B? _________ A. Most electrons will go into the knob and down to the earth. B. Some electrons will go from the earth through the knob and into the man. 25. Why are shocks worse when you touch conductors rather than insulators? 26. If you take your hat off on a dry winter day. sometimes your hair will stand up. Explain this phenomenon. _______________________________________________________________________________________________
1. A 1.5 V AA battery has poles 5 cm apart. (a) Find the charge Q on each pole. (Half the charge will be on each pole, and will be opposite in sign.) (b) Treat the poles as point charges, place one at (0,0,0) m and the other at (0,0,0.05) m. Use the superposition principle to draw the total field from the two charges. (c) Write the vector expression for the electric potential, V, at any position r around the battery. (d) Use the superposition principle to find the electric potential at position r = (.1,.1,0) m.
24. 1. When point charges q1 = +9.4 uC and q2 = + 6.5uC are brought near each other, each experiences a repulsive force of magnitude 3.75 N. Determine the distance between the two charges. [Given Data, Coulomb's Constant, Ke = 8.99X10^9 Nm² / C^2? The distance between the two charges = ...... m.
1. An electron initially moves in a horizontal direction and has a kinetic energy of 2 × 103 eV (electron- volts) when it enters to the electric field E as shown in the figure. It passes through a uniform electric field between two oppositely charged vertical plates to a field-free region with a velocity 2.8 x 10'm/s. The plates are separated from each other by a distance of 0.04 meter. Gravity is negligible. 0.04m Electron Calculate electric field and find its direction: L me = 9.11 x 10-31kg; qe = -1.6 × 10-1ºC; 1eV = 1.6 x 10¬19] Hint: 1 Kinetic energy = qE mv²; Potential energy = d Use conservation of energy. (A)5800 V/m; directed from R to L (B) 5800 V/m; directed from L to R (C) 6750 V/m; directed from R to L (D)6750 V/m; directed L from to R (E) None of them
Calculate the work required to bring a charge of 5.9×10−95.9×10−9 C from infinity to a point 28.7 cm from a charge of 0.0390.039 μμC in vacuum. Use the value of Coulomb's constant ke=14πε0=9×109ke=14πε0=9×109 m/F. Provide your answer in units of 10−610−6 J: for example, if your answer is 3.6×10−63.6×10−6, then enter 3.6 as your answer.
3. Two small aluminium spheres weighing 10 g each are suspended by 10-cm-long silk threads from two hooks separated 10 cm apart. When the spheres are uncharged, the silk threads are vertical due to the gravitational pull of the earth (the effect of gravity between the two spheres is negligible). A fraction of the electrons from each sphere is then removed, leaving behind a net positive electric charge on each sphere. Once the spheres are charged, they move away from each other causing the thread to hang at 45 degrees from vertical. a) What is the net positive charge on each sphere? Hint: The horizontal and vertical forces acting on each sphere must be equal for the net force to be along a 45 degree angle. b) Given that the atomic mass of Aluminium is 27 and the atomic number is 13, what percentage of total electrons of the aluminium spheres need to be taken away to achieve this scenario?
What is the total electrostatic potential energy of a hydrogen atom (which consists of an electron orbiting a proton at a distance of 5.3 Å)? Note that this will be a negative number given the formula you're using... Note: for this question, there may be more than one correct answer! -4.34 x 10-18 J -13.7 eV -27.1 eV -8.19 x 10-8 J