Directions: Sketch the diagram for each item and solve what is being asked. 1. Three capacitors with individual capacitances of 2 µF, 5 µF, and 10 µF respectively are connected in series with a 12V battery. What are the total capacitance and total charge in the network?
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- Please fill out the template below with the work for this problem. Note that you need to have a picture, a list of knowns and unknowns, the general equation/s you will use, and the math steps to solve for the unknown, only plug in the numbers after you have solved for the unknown, and the answer with units included. Question 1: Suppose you have a 195 μF capacitor. What charge is stored in it when 102 V is applied to it, in millicoulombs?I keep getting different answers with each calculation and unsure of where I am going wrong. If possible, please show steps so I may understand where my calculations were incorrect. (a). What's the capacitance of your capacitor? (the value and unit(s)). (b). If you disconnect the battery and separate the plates to a distance of 3.50 cm without discharging them, what will be the potential difference between them? (the value and unit(s)).Could you help me to solve the following problem step by step?Thank you very much in advance.6. A) How is capacitance defined? B) To a capacitor with air between its plates with an area of 3 cm2 and a separation between them of 1 mm. If a potential difference of 5 V is applied, calculate a) the electric field generated, b) the surface charge density c) the capacitance d) A dielectric of dielectric constant =3 d) What is the capacitance now?
- Please fill out the template below with the work for this problem. Note that you need to have a picture, a list of knowns and unknowns, the general equation/s you will use, and the math steps to solve for the unknown, only plug in the numbers after you have solved for the unknown, and the answer with units included. Question 1: A current of 2.72 A flows through a wire. How many electrons flow past a particular point in the wire every 15 seconds?Direction. Answer each problem and show your solutions cleanly and clearly. Draw diagrams. 1. Three capacitors when connected in series gives an equivalent capacitance of 1.2 uF. When they are connected in parallel, the equivalent capacitance is 12.4 uF. The capacitance of the second capacitor is 1.5 times the first. Find the capacitance of each. Three capacitors when connected in series gives an equivalent capacitance of 1.2 uF. When they are connected in parallel, the equivalent capacitance is 12.4 uF. The capacitance of the second capacitor is 1.5 times the first. Find the capacitance of each. Answer: 4, 6, 2.4 uFHello my dear tutor, Please help me answer this one. Show your solutions or answers. Type only your step by step solutions and answers here, do not handwritten. Failure to follow the above reminders and direction will be marked as not helpful; 3. The series combination of 5.0 F and 20.0 F capacitors is connected in parallel to a 40.0 F capacitor. What is the total charge stored in the combination of capacitors when connected to 100.0 V? A.6500 C B.4400 C C.360 C D.1500 C
- Using Ohm’s Law and the power equation, make a formula for electric power that only uses voltage and resistance. To do this, rearrange the variable in Ohm’s Law so that it is I = instead of V = and plug that answer in for I in the power equation. Then simplify. Show all your work below:ANSWER BOTH. 1. Define what electric current is with respect to your understanding of the concept of drift velocity. 2.In what ways are electric current and electron flow similar? In what ways are they different from each other? Elaborate your answerThe gap between electrodes in a spark plug is 0.060cm. Producing an electric spark in a gasoline-air mixture requires an electric field of 3.0 x106 V/m (unit could also be written N/C). What electric potential must be supplied by the ignition to start a car? Show Your Work
- Two pith balls, each with a mass of 1.4 g, are attached to non-conducting threads and suspended from a common hook. Each thread has a length of 16.2 cm. The balls are then given an identical charge, which causes them to separate. In equilibrium, the threads are separated by an angle of 6.9°. Calculate the charge on each pith ball, in coulombs (C). Be clear and show all your work.Conceptualize Study figure (a) carefully and make sure you understand how the capacitors are connected.Categorize Figure (a) shows that the circuit contains both series and parallel connections, so we use the rules for series and parallel combinations discussed in this section.Analyze Reduce the combination step by step as indicated in the figure. The c1 = 1.1 µF and 3.0 µF capacitors in figure (a) are in parallel. Find the equivalent capacitance: Ceq = C1 + C2 = 4.1 µF (top red circles) The c2 = 2.0 µF and 6.0 µF capacitors in figure (a) are also in parallel: Ceq = C1 + C2 = 8.0 µF (bottom red circles) The circuit now looks like figure (b). The two capacitors in the upper branch are in series. Find the equivalent capacitance: 1 Ceq = 1 C1 + 1 C2 = 1 4.0µF + 1 4.1µF (top green circles) Ceq = 2.0 µF The two capacitors in the lower branch are also in series. Find the equivalent capacitance: 1…Solve the following problems intelligently. Show your solution neatly (indicate given, working equation, solution) 2. How strong is the electric field between two parallel5.8 mm apart if the potential difference between them is 220V?