In your circuit, one terminal of each capacitor is connected to the battery, and not to the other terminal, so they can not be considered in parallel. Two components are considered connected in series when all the current that goes to one of the components has to also go to the other component. There can not be any alternative paths ** Capacitors in Series and Parallel Systems including capacitors more than one has equivalent capacitance**. Capacitors can be connected to each other in two ways. They can be connected in series and in parallel

If each capacitor has BOTH terminals connected to BOTH terminals of the others, then they are in parallel. If each capacitor has only one terminal connected to one terminal of another capacitor, they are in series. 3.4K view If capacitors are placed in parallel this is a bit akin to increasing the size of the capacitor plates and hence the values of capacitors in parallel can simply be added together. If the capacitors are in series, they cannot simply be added. Capacitors connected in series When capacitors are connected across each other (side by side) this is called a parallel connection. This is shown below Therefore in parallel, the total capacitance is the sum of individual capacitances. Capacitors in Series. For series capacitors, the same charge appears on each capacitor. The chart below displays the capacitors in series and parallel as well as the method to Solve Capacitors in Seris and Parallel All the capacitors which are connected in parallel have the same voltage and is equal to the VT applied between the input and output terminals of the circuit. Then, parallel capacitors have a 'common voltage' supply across them.i.e. VT = V1 = V2 etc

- You can combine capacitors in series or parallel networks to create any capacitance value you need in an electronic circuit. For instance, if you combine three 100 μF capacitors in parallel, the total capacitance of the circuit is 300 μF. Combine capacitors in parallel Calculating the total capacitance of two or more capacitors in parallel [
- al of C1 and the 1st ter
- For capacitors connected in a parallel combination, the equivalent (net) capacitance is the sum of all individual capacitances in the network, (9.1.3.9) C p = C 1 + C 2 + C 3 +... Figure 9.1.3. 2: (a) Three capacitors are connected in parallel. Each capacitor is connected directly to the battery

Here, we have made use of the fact that the voltage is common to all three capacitors. Thus, the rule is: The equivalent capacitance of two capacitors connected in parallel is the sum of the individual capacitances. For capacitors connected in parallel, Eq. (114) generalizes to

The formula for capacitors in series is equivalent to the equation for parallel resistors The formula for capacitors in parallel is equivalent to the equation for resistors in series RC circuits consist of a combination of resistors and capacitors The formula for calculating the series total capacitance is the same form as for calculating parallel resistances: When capacitors are connected in parallel, the total capacitance is the sum of the individual capacitors' capacitances This physics video tutorial explains how to solve series and parallel capacitor circuit problems such as calculating the electric charge, voltage, and potent..

CAPACITORS IN SERIES AND PARALLEL Capacitors may be connected in series or in parallel to obtain a resultant value which may be either the sum of the individual values (in parallel) or a value less than that of the smallest capacitance (in series) When a number of capacitors are connected in series, the voltage applied across the capacitors is 'V'. When the capacitor's capacitance is C1, C2Cn, then corresponding capacitance of capacitors when connected in series is 'C'. The applied voltage across the capacitors is V1, V2, V3.+Vn, correspondingly Capacitors in Parallel. Figure 19.21(a) shows a parallel connection of three capacitors with a voltage applied.Here the total capacitance is easier to find than in the series case. To find the equivalent total capacitance C p C p size 12{ {C} rSub { size 8{p} } } {}, we first note that the voltage across each capacitor is V V size 12{V} {}, the same as that of the source, since they are. In this case, we have two capacitors in series (C 1 and C 4), with C 2 and C 3 in parallel. We can 'collapse' C 2 and C 3 into an equivalent capacitor and then use the series circuit rule. Let's start by finding the equivalent capacitance of C 2 and C 3:which we will call C p

** Capacitors in Series and in Parallel**. In this article, we will go over how capacitors add in series and how they add in parallel. We will go over the mathematical formulas for calculating series and parallel capacitance so that we can compute the total capacitance values of actual circuits When capacitors are connected one after another, they are said to be in series. For capacitors in series, the total capacitance can be found by adding the reciprocals of the individual capacitances, and taking the reciprocal of the sum. Therefore, the total capacitance will be lower than the capacitance of any single capacitor in the circuit. The Parallel Combination of Capacitors. A parallel combination of three capacitors, with one plate of each capacitor connected to one side of the circuit and the other plate connected to the other side, is illustrated in Figure 4.2.2 (a). Since the capacitors are connected in parallel, they all have the same voltage across their plates.However, each capacitor in the parallel network may store.

Compares the rules and equations governing capacitors in parallel and capacitors in series.Capacitors in series will store the same amount of charge on their.. In the previous parallel circuit we saw that the total capacitance, C T of the circuit was equal to the sum of all the individual capacitors added together. In a series connected circuit however, the total or equivalent capacitance C T is calculated differently.. In the series circuit above the right hand plate of the first capacitor, C 1 is connected to the left hand plate of the second. Capacitors can be connected in two types which are in series and in parallel. If capacitors are connected one after the other in the form of chain then it is in series. In series, the capacitance is less. When the capacitors are connected between two common points they are called to be connected in parallel The series and parallel connections of capacitors offer the opposite results of the same connections found in resistors. For instance, a resistor with a series connection allows for more electricity to pass through rather than less. Just like a resistor with a parallel connection will restrict electricity more Introduction. Capacitors are components that store electricity and electrical energy (potential energy), and play an important role in circuits such as tuning, bypassing, coupling, and filtering. Capacitors are connected in parallel to increase capacity, and capacitors are connected in series to decrease capacity. When the capacitor is connected in series in the circuit, it can prevent the.

* Capacitors, like other electrical elements, can be connected to other elements either in series or in parallel*. Sometimes it is useful to connect several capacitors in parallel in order to make a functional block such as the one in the figure. In such cases, it is important to know the equivalent capacitance of the parallel connection block. Potential difference is the same with multiple parallel capacitors but the charge adds. Like resistance in series, adding capacitors in parallel increases effective capacitance. The formula for determining effective capacitance is effective capacitance = capacitance 1 + capacitance 2. parallel capacitors capacitance fara For the proof, start with our original circuit of one 10kΩ resistor and one 100µF capacitor in series, as hooked up in the first diagram for this experiment. We already know that the capacitor is going to charge up in about 5 seconds. Now add a second capacitor in parallel Check Out our Selection & Order Now. Free UK Delivery on Eligible Orders Capacitors in parallel As shown in the figure, if two capacitors are connected in parallel, following can be derived. • For two capacitors in parallel, total capacitance is expressed as follows. ➨C= C1+C

Capacitors in parallel have the same voltage, but different charge stored. Capacitors in series have the same charge stored, but different voltages. Remember that if a capacitor are hooked up to the battery they will have the same voltage as the battery A parallel combination of three capacitors, with one plate of each capacitor connected to one side of the circuit and the other plate connected to the other side, is illustrated in Figure 2 (a). Since the capacitors are connected in parallel, they all have the same voltage V across their plates.However, each capacitor in the parallel network may store a different charge * Capacitors in series and parallel - problems and solutions 1*. Three capacitors, C1 = 2 μF, C2 = 4 μF, C3 = 4 μF, are connected in series and parallel. Determine the capacitance of a single capacitor that will have the same effect as the combination When you connect capacitors in parallel, then the total capacitance will be equal to the sum of all the capacitors capacitance. Because the top plate of all the capacitors are connected together and the bottom plate also. So, by touching each other the effective plate area is also increased Two frequently used methods of combination are: Parallel combination and Series combination. Parallel Combination of Capacitors When capacitors are connected in parallel, the potential difference V across each is the same and the charge on C 1, C 2 is different i.e., Q 1 and Q 2. The total charge is Q given as

Resistor, Capacitor and Inductor in Series & Parallel - Formulas & Equations. The following basic and useful equation and formulas can be used to design, measure, simplify and analyze the electric circuits for different components and electrical elements such as resistors, capacitors and inductors in series and parallel combination Capacitance in Parallel and Series Circuits When you place capacitors in parallel in a circuit, you can find the total capacitance by adding all of the individual capacitances together. Getting the total capacitance in a parallel circuit is as easy as 1+1, just add them all together Capacitors in Parallel When capacitors are placed in parallel with one another the total capacitance is simply the sum of all capacitances. This is analogous to the way resistors add when in series. So, for example, if you had three capacitors of values 10µF, 1µF, and 0.1µF in parallel, the total capacitance would be 11.1µF (10+1+0.1)

Start studying AC Theory, Lvl I - Lesson 6: Working with Capacitors that are in Series and/or Parallel. Learn vocabulary, terms, and more with flashcards, games, and other study tools ** A parallel capacitor circuit is shown in the below figure**. The circuit consists of three capacitors that are connected in parallel and a DC voltage source. If the values of the three capacitors are C1 = 8F, C2 = 4F, C3 = 2F and DC battery = 10 V, then The total capacitance is CT = C1 + C2 + C3 = 8 + 4 + 2 = 14 Capacitors in series. Like resistors and inductors, capacitors can be connected in series, in parallel or in series-parallel. Placing capacitors in series effectively increases the thickness of the dielectric, and so reduces the total capacitance The facts that the voltage is the same for capacitors in parallel and the charge is the same for capacitors in series are important, but, if you look at these as two more things that you have to commit to memory then you are not going about your study of physics the right way

- The Parallel Combination of Capacitors. A parallel combination of three capacitors, with one plate of each capacitor connected to one side of the circuit and the other plate connected to the other side, is illustrated in Figure 8.12(a). Since the capacitors are connected in parallel, they all have the same voltage V across their plates.However, each capacitor in the parallel network may store.
- Capacitors in AC Circuits Example 12. What is the voltage across a 4 µF capacitor connected in series to a .75 µF, with a voltage source of 6 V rms and a frequency of 850 Hz (see Figure 10). Figure 10 Circuit schematic two capacitors in series with AC voltage source. Calculate the X C for the capacitors
- A parallel circuit is the most convenient way to increase the total storage of electric charge. The total voltage rating does not change. Every capacitor will 'see' the same voltage. They all must be rated for at least the voltage of your power supply
- How come for capacitors in series the total charge of the equivalent capacitor is the charge of each capacitor and for capacitors in parallel the total charge of the equivalent capacitor is equal to the sum of the charge stored by each capacitor
- A number of condensers are said to be joined in series if they are joined end to end and each condenser acquires the same charge. In series combination, the plates of each condenser carry a charge of the same magnitude
- Capacitors in Series In series, capacitors will each have the same amount of charge stored on them because the charge from the first one travels to the second one, and so on. The total charge stored is the charge that was moved from the cell, which equals the charge that arrived at the first capacitor, which equals the charge that arrived at the second, etc..
- The Series Combination of Capacitors. illustrates a series combination of three capacitors, arranged in a row within the circuit. As for any capacitor, the capacitance of the combination is related to the charge and voltage by using .When this series combination is connected to a battery with voltage V, each of the capacitors acquires an identical charge Q

- Capacitors in series and parallel 1. Department Vocational Pedagogy Vocational Pedagogy CLASS: EP-6 AVP-2_Lesson Preparation Page 1 of 6 AVP-2 - Lesson Preparation General Information o Topic: Capacitors in series and parallel o Name and Student Number: Tamim Alsaadi o Date and Time: 23/10/2013 Formal Requirements1 DIN A4, portrait
- and C1 - CX are the individual capacitance's of each capacitor; As can be seen in the formula above, capacitors in parallel yield a significantly larger capacitance then ones in a series. This is because in parallel each capacitor sees the same voltage, while in a series that voltage is split
- 4:Equivalent capacitance. we can replace series combination of capacitors with one equivalent capacitor having capacitance C eq i.e, 1/C eq = 1/C 1 + 1/C 2 + 1/C 3. Formula for total capacitance in parallel circuit When capacitors are connected in parallel,the total capacitance is the sum of individual capacitances because the effective plate area increases.The calculation of total parallel.
- Super capacitors can be placed in parallel to up the capacitance of the circuit. You can even place series banks in parallel with one another. However, there are a few things to consider. 1) If you place two capacitors in parallel, the voltage ratings do not have to be the same

* Two identical parallel plate capacitors are connected to a battery with the switch S S S closed*. When S S S is opened and the free space between the capacitors is filled with a material of dielectric constant K K K, the ratio of the total electrostatic energies stored in both capacitors, after and before the introduction of the dielectric, is _____ \text{\_\_\_\_\_\_\_\_\_\_} _____ II. Networks of Capacitors 내 th C2 C A. If we have a network of many capacitors it may be that any two given capacitors are not in series or in parallel with each other. For example, consider the network of three capacitors to the right. Take C1 = 10 mF, C2 = 20 mF, and C3 = 30 mF th 1. Capacitors Cī and C3 are not in parallel with each other Capacitors Connected in Parallel Frequently we want to combine multiple capacitors into one circuit. One way to combine capacitors is to connect them in parallel as shown in Fig. 2. Note that the top plates of both capacitors are connected to the positive terminal of the battery, and the bottom plates of both capacitors are connected to the negative terminal

World's Best PowerPoint Templates - CrystalGraphics offers more PowerPoint templates than anyone else in the world, with over 4 million to choose from. Winner of the Standing Ovation Award for Best PowerPoint Templates from Presentations Magazine. They'll give your presentations a professional, memorable appearance - the kind of sophisticated look that today's audiences expect Capacitors may be combined in series or parallel. Figure (2a) shows three capac-itors connected in series and connected to a battery. Figure (2b) shows three ca-pacitors connected in parallel and connected to a battery. Note the polarity in each case. Theoretically the equivalent capacitance for the series connection is given by 1 Ceq = 1 C1. I can't give you a complete answer until I know the circuit set up. Is the first capacitor and inductor in series with each other or in parallel? Is the second capacitor in series with the resistor or in parallel? Basically, are there two different circuits in parallel with each circuit having 2 series components

TAP 127- 2: Capacitors in series and parallel questions. The diagram below shows three capacitors of capacitance C1, C2 and C3 connected in parallel to a potential difference V. Work through question 1 in order to obtain the value, in terms of C1, C2 and C3, of a single capacitor C that would replace all three What does solving a capacitor circuit really mean? Well, it's just finding the charge and voltage across each capacitor in a circuit. There are some simple formulas and rules that would allow us to solve two different types of capacitor circuits: series circuit and parallel circuit Capacitors in Series and Parallel & the RC Time Constant 1 Purpose 1. To investigate the voltage time dependence in an R-C circuit. 2. To learn to use an oscilloscope to determine the capacitance C and time constant RC. 3. To manipulate non-linear exponential data in such a way as to obtain a linear graph Calculate total resistance of a circuit that contains a mixture of resistors connected in series and in parallel. Most circuits have more than one component, called a resistor that limits the flow of charge in the circuit. A measure of this limit on charge flow is called resistance

I understand how capacitors store energy, as well as the formulas for the effect of series/parallel arrangment on capacitance and voltage rating. What I really need to know is how to calculate the resistor values needed to properly do the job of balancing charge, where they go in the circuit, and why Q. Capacitors C1 and C2 are connected in parallel and a potential difference is applied to the combination. If the capacitor that is equivalent to the combination has the same potential difference, then the charge on the equivalent capacitor is the same as You, on the other hand, know that the model represents a single capacitor. Moreover, you also know whether the model represents a series mode connected or parallel mode connected capacitor. Based on the definitions of the S-matrix elements, you can calculate the unknown impedance from any of the four matrix elements

Let us connect n number of capacitors in parallel, across a voltage source of V volt.. Let us consider the capacitance of the capacitors are C 1, C 2, C 3.C n, respectively and equivalent capacitance of the combination of the capacitor is C.As the capacitors are connected in parallel, like current charge in each capacitor will be same.Total charge of the parallel combination, will be. ** When you apply a voltage to a capacitor, it will store an amount of charge and can restore it later when discharging**.Kind of a mini battery. Capacitors also let AC current go through them, but not DC. When you combine capacitors, capacitors in parallel will have a combined capacitance equal to the sum of both capacitances

- Notice that the voltage on all three of these series capacitors adds up to the total battery voltage - it must be so, based on conservation of energy. Next, we know that C 884 is really two capacitors in parallel - the lower 8µF capacitor and C 84. Parallel capacitors have the same voltage, so we know that both of these have to have V lower.
- ing total capacitance for
**parallel**- and**series**-connected capac- are opposite to**series**. and**parallel**-connected resistors.**Capacitors****in****Parallel**_hFlgure 7-9(a). you can see a 2 YF and 4 NF**capacitor**connected in**parallel**with one an- the top plate of capaci10r A is connected to the top plate of**capacitor**B with a wire - Capacitors in series and parallel (solution) 8.4.P5 A capacitor is a device for storing electrical energy in the form of a separation of opposite charges. Since these opposite charges attract and would naturally come together, there is energy available when they are separated. The energy can be obtained for conversion to other forms by allowing the separated charges to come together, their.

Capacitors will usually have a max rating to not exceed for ripple current, so this should be considered for the circuit design. Capacitors In Parallel. Often times, the need arises to use several different value capacitors in parallel to target different frequencies or to simply get a higher total capacitance out of many lower ones Step 1 - C eq represents C 4 and C 123 in series. Capacitors in series have the same charge but split the potential difference. Q 4 = Q 123 = 720 pC. The capacitors are equal, so they each have 6 volts across them. Step 2 - C 123 represents C 1 and C 23 in parallel. Devices in parallel have the same potential difference (6 V in this case. The effect of combing two capacitors in series and parallel is shown by charging various combinations to a constant potential and then discharging them through a simulated ballistic galvanometer to observe the relative charges. The relation is Q = CV. Capacitors in parallel should take longer to charge/discharge (capacitors add together)

- Here's how to solve it if you don't already know the answer. This will make your instructor happier. Let N = number of capacitors. Let C = capacitance of each capacitor. Let Cp = parallel capacitance. Let Cs = series capacitance. Given: Cp/Cs = 100. But. Cp = N x C. Cs = C/N. Substitute both into the first equation: Cp/Cs = (N x C) / (C/N.
- als C) a capacitor can be made from two conductors of any shape and size as long as the conductors are not touching each other D) the equivalent capacitance of two capacitors in series depends on the potential difference across the two E) none of the abov
- e the equivalent capacitance between points a and b for the combination of capacitors shown in Express your answer in terms of the variables C..
- Main Difference - Capacitor vs. Inductor. Capacitors and inductors are both circuit components that oppose changes in current in circuits. The main difference between capacitor and inductor is that a capacitor stores energy in the form of an electric field whereas an inductor stores energy in the form of a magnetic field.. What is a Capacitor

If all N capacitors in the parallel connection are identical (Fig. 1), with equal capacitance values C sk = C and equal ESR values R sk = R s, then for k = 1, 2, . . . N the answers are clear: N. C = equivalent capacitance for the parallel connected circuit (Farad, F, μF) C 1..n = capacitance capacitors (Farad, F, μF) It is common to use µF as the unit for capacitance. Capacitors in Series. Capacitors can be connected in series: The equivalent capacitance for series-connected capacitors can be calculated as. 1 / C = 1 / C 1 + 1 / C 2. If you want to compute the parallel capacitance of more than 10 capacitors, then just start with the first 10 capacitors and then calculate the equivalent parallel capacitance. Once you have this result, place it into one of the boxes and insert into the other boxes the remaining capacitors you have in parallel This is in contrast to a set of capacitors in parallel which in fact increase the total capacitance. Capacitors in Series Definition. Capacitors in series are defined as 2 or more capacitors in a circuit that are connected in series. That is the current has to flow through the first capacitor before it can get to subsequent capacitors In this lab, students will learn about capacitors, devices that store energy as electrostatic charge. They are common circuit components that have numerous applications both in series and parallel arrangements. Students will start by calculating capacitance in various configurations. Then, students will have the chance to build circuits and observe capacitors in action with the NI ELVIS III

** There are two ways to connect capacitors in an electronic circuit - series or parallel connection**. Series: In a series connection the components are connected at a single point, end to end as shown below: For a series connection, the charge on each capacitor will be the same and the voltage drops will add When capacitors are connected in parallel, the total capacitance is the sum of the individual capacitors' capacitances. If two or more capacitors are connected in parallel, the overall effect is that of a single equivalent capacitor having the sum total of the plate areas of the individual capacitors If we connect the positive plate of one capacitor of capacitance C1 to the positive plate of a second capacitor of capacitance C2 we say we are connecting them in parallel.. 1 of Capacitors in series add up like resistors in parallel. So, if we have 3 caps in series and want the total capacitance, all we need to do is use the formula above and replace the L' s with C 's. Capacitors in parallel combine like resistors and inductors in series, they simply sum up. C total = C1 + C2 + C3

EENG223: CIRCUIT THEORY I •Physical Meaning: Capacitors and Inductors + - v i C •when v is a constant voltage, then i=0; a constant voltage across a capacitor creates no current through the capacitor, the capacitor in this case is the same as an open circuit. •If v is abruptly changed, then the current will have an infinite value that is practically impossible Example two capacitors in parallel gives you C1 + C2 = Ct. But each capacitor has a series resistor inside, called ESR, and are in parallel that gives you half resistance wich is very bad. On the other side Capacitors in series gives a total resitance of ESR1 + ESR2 that means a lot of losses. Manufacturers don't use serial o parallel capacitors Calculate the total series and parallel capacitance of a circuit using DigiKey's Series and Parallel Capacitor calculator. tools, resources, and know-how to support students and educators in their quest for STEM education. Learn More... API Solutions. Back API Solutions. Series and Parallel Capacitor Calculator

- Series means the + side of one capacitor (or any element really) is hooked to the - side of another--they are in a line--so current has to go through BOTH elements to get past. parallel means the circuit branches and connects both positive sides and both negative sides. So current goes through either one element of the other
- integrating at each capacitor. This is way, way more than you need for the MCAT. I can't remember if the MCAT requires you to calculate the voltage in a circuit with reactive components, but I don't remember having to concern myself with it at all. You do need to know how to combine capacitors, but nothing involving integration
- Calculates the total capacitance of two capacitors in series and parallel. Capacitance C 1: Capacitance C 2: Total capacitance: in series Cs . in parallel Cp Customer Voice. Questionnaire. FAQ. Capacitance in series and parallel [1-10] /73: Disp-Num [1] 2020/11/19 01:33 Male / Under 20 years old / Others / Very /.

When two identical parallel-plate capacitors are connected in series, which of the following is true of the equivalent capacitance? (A) It depends on the charge on each capacitor. (B) It depends on the potential difference across both capacitors. (C) It is larger than the capacitance of each capacitor Capacitors may be said to be joined in parallel if each of their pins are correspondingly linked to each pin of the additional capacitor or capacitors. The voltage (Vc) attached throughout each of the capacitors which are linked in parallel may be the IDENTICAL Electrical Engineering Q&A Library Capacitors in Series and in Parallel Find the net capacitance of the combination of series and parallel capacitors shown below. 5.0 μ. 8.0 µF 1.5 μF - 0.75 µF 3.5 μ 15 μ

The total capacitance of this equivalent single capacitor depends both on the individual capacitors and how they are connected. There are two simple and common types of connections, called series and parallel, for which we can easily calculate the total capacitance. Capacitors may be placed in parallel for a variety of reasons Depending on the required energy, there could be a need to then place multiple cells in parallel. When ultracapacitor cells are placed in series or parallel, they react very similarly to conventional capacitors. Below is a summary of how key attributes respond when multiple cells are placed in series/parallel formation: Voltag When resistors and capacitors are mixed together in parallel circuits (just as in series circuits), the total impedance will have a phase angle somewhere between 0° and -90°. The circuit current will have a phase angle somewhere between 0° and +90° Main Difference - **Series** vs. **Parallel** Resonance. Resonance is a phenomenon that occurs in electric circuits consisting of **capacitors** and inductors. Resonance occurs when the capacitive impedance of the circuit is equal to the inductive impedance.Depending on the arrangement of the **capacitors**, inductors, and resistors, the conditions for achieving resonance varies between different types of.

The simplest combinations of resistors are series and parallel connections (Figure 6.2.1). In a series circuit, the output current of the first resistor flows into the input of the second resistor; therefore, the current is the same in each resistor Connecting Capacitors in Series and in Parallel Goal: find equivalent capacitance of a single capacitor (simplifies circuit diagrams and makes it easier to calculate circuit properties) Find C eq in terms of C 1, C 2, to satisfy C eq = Q/ΔV. Capacitors in Parallel. Capacitors in Parallel Since in a series circuit current is the same so it is taken as a reference.. is drawn in phase with current because in a pure resistor the voltage and current are in phase with each other.. is drawn lagging with current by because in a pure capacitor voltage and current are out of each other i.e. voltage lags current by or current leads the voltage by .. When capacitors are connected in series, the total capacitance is less than any one of the series capacitors' individual capacitances. If two or more capacitors are connected in series, the overall effect is that of a single (equivalent) capacitor having the sum total of the plate spacings of the individual capacitors The RC circuit (Resistor Capacitor Circuit) will consist of a Capacitor and a Resistor connected either in series or parallel to a voltage or current source. These types of circuits are also called as RC filters or RC networks since they are most commonly used in filtering applications Students solve problems on the determination of total capacitive reactance of series-parallel capacitors. Watch Now 71 9,831 More Less. Series RLC Circuit Tic-Tac-Toe 1. By Terry Bartelt. By playing a game of tic-tac-toe, a student can review what happens to currents and voltages throughout a series RLC circuit when the applied frequency is.