Learning Task 2: Solve Me! Directions: Sketch the diagram for each item and solve what is being asked. 1. Three capacitors with individual capacitances of 2 µF, 5 uF, and 10 uF respectively are connected in series with a 12V battery. What are the total capacitance and total charge in the network? 2. Same capacitors in number 1 connected in a parallel. If the combined charge in the network is 50 µC, what are the total voltage and total capacitance in the network? 3. A series combination of two uncharged capacitors are connected to a 15-V battery, 300 µJ of energy is drawn from the battery. If one of the capacitors has a capacitance of 5.0 pF, what is the capacitance of the other? Learning Task 3 Series-Parallel Capacitor Four capacitors are connected as shown in the figure below. Determine the following: A. Total Capacitance (C)

Learning Task 2: Solve Me! Directions: Sketch the diagram for each item and solve what is being asked. 1. Three capacitors with individual capacitances of 2 µF, 5 uF, and 10 uF respectively are connected in series with a 12V battery. What are the total capacitance and total charge in the network? 2. Same capacitors in number 1 connected in a parallel. If the combined charge in the network is 50 µC, what are the total voltage and total capacitance in the network? 3. A series combination of two uncharged capacitors are connected to a 15-V battery, 300 µJ of energy is drawn from the battery. If one of the capacitors has a capacitance of 5.0 pF, what is the capacitance of the other? Learning Task 3 Series-Parallel Capacitor Four capacitors are connected as shown in the figure below. Determine the following: A. Total Capacitance (C)

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Answer the following questions and for figure check the attached image 1.What is the limitation of Coulomb’s law? If you have a single charge in the entire universe, can you measure the electric field of this charge at any point? 2. What is the importance of Gauss’s law? Show that Coulomb’s can be a special case of Gauss’s law. 3. Figure shows the arrangements of electric field lines. If an electronis released at point B, what would happen to this electron and why?Explain. If you move the electron from B to A, what would happento its potential energy? Explain. 4. Figure shows two charged particles that are separated by distance X on an axis. The charges are held fixed. Where should a third charge, q, be placed on the axis such that the net force on q is zero? Explain. Can you determine its distance?
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9 V B. The circuit at right is made from an ideal battery connected to 4 ideal resistors as shown. i. What is the total resistance of this circuit? Show your work. R4= 352 R1 = 152 R3 = 452 ii. Find the current through each of the 4 resistors. Show your work. R2= 752 iii. Rank the potential difference across the 4 resistors from greatest to least. Explain your reasoning. iv. If resistor R3 is cut out of the circuit, without replacing it with anything, will the current through resistor R2 increase, decrease, or stay the same? Explain your answer or show your work.
Task 3: Electric potential energy and electric potential 1. Examine the charge distribution shown. Sphere 1 has a charge of +3.0 x 10-4 C; sphere 2 has a charge of -3.0 × 10-4 C; and sphere 3 has a charge of +3.0 × 10-4 C. Assume that Coulomb's constant, (k) is equal to 9.0 × 10⁹ Nm² Show all your work when completing each of these questions. 9₁ 4.24 m 3.00 m N 3.00 m 4.24 m 3.00 m 93 a. Determine the total electric potential energy for the charge distribution. b. Determine the total electric potential at point Z.
part c
Task 3: Electric potential energy and electric potential 1. Examine the charge distribution shown. Sphere 1 has a charge of +3.0 x 10-4 C; sphere 2 has a charge of -3.0 × 10-4 C; and sphere 3 has a charge of +3.0 × 10-4 C. Assume that Coulomb's constant, (k) is equal to 9.0 × 10⁹ Nm² Show all your work when completing each of these questions. 9₁ 4.24 m 3.00 m N 3.00 m 4.24 m 3.00 m 93 a. Determine the total electric potential energy for the charge distribution. b. Determine the total electric potential at point Z.
Show the complete solution. Kindly, include the necessary drawings ang label it properly based on given values. 9. A body falls from rest against a resistance that varies directly as the velocity. If the limiting speed or terminal velocity is 160 ft/sec, find the speed after 5 seconds. Assume g = 32 ft/s²
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