For the points indicated, rank the magnitudes of the electric field in descending order (largest first). Question The drawing shows three situations-A, B, and C-in which an observer and a source of electromagnetic waves are moving along the same line. Physics. +50V - +250V B. In which arrangement (if any) does the net electric field at the center of the square have the greatest magnitude? And B is also greater than C. When comparing between the point A. What force does the negative charge experience? 1: (a) Sketch the electric field lines near a point charge +q + q. By the end of this section, you will be able to: Explain the purpose of an electric field diagram Describe the relationship between a vector diagram and a field line diagram Explain the rules for creating a field diagram and why these rules make physical sense Sketch the field of an arbitrary source charge $\sum_{n=1}^{\infty} \frac{(-1)^{n} x^{n}}{\sqrt{n}}$. (a) B, C, A (b) B, A, C (c) A, B, C (d) A, C, B (e) C, A, B Transcribed Image Text: A B. It might be a funny scene, movie quote, animation, meme or a mashup of multiple sources. an electron attracts the electric field lines. You'll get a detailed solution from a subject matter expert that helps you learn core concepts. (b) Draw the electric field lines map for two charges $+20 \mu \mathrm{C}$ and $+20 \mu \mathrm{C}$ situated $5 \mathrm{cm}$ from each other. Figure 4 shows how the electric field from two point charges can be drawn by finding the total field at representative points and drawing electric field lines consistent with those points. Do not consider any effects due to gravity. Both electricity a. Experts are tested by Chegg as specialists in their subject area. The magnitude of the net field at the center of the square is the same in each arrangement of the charges. How is q2 related to q1? The following rules apply to electric field lines: Lines begin and end only at charges (beginning at + charges . Do any lines enter the spherical surface? The purpose of drawing electric field lines is to visualize the direction and magnitude of the electric field. The charge's magnitude was directly proportional to the number of field lines. ut of 8 B a. A,C,B b. I am able to draw the electric field lines around charged particles. A negatively charged particle with a charge -3Q follows path 2 while it moves through this field. For example, an isolated positive charge. The figure shows the electric field lines in the vicinity of two point charges. This can be done by using the equation E=kQ/r2, where E is the electric field, k is the Coulomb's constant, Q is the charge of the source, and r is the distance from the source. For the points indicated, rank the magnitudes of the electric field in descending order (largest first). Three point charges (some positive and some negative) are fixed to the corners of the same square in various ways, as the drawings show. ut of 8 B a. A,C,B b. Question From - HC Verma PHYSICS Class 12 Chapter 29 Question - 001 ELECTRIC FIELD AND POTENTIAL CBSE, RBSE, UP, MP, BIHAR BOARDQUESTION TEXT:-Figure shows s. What are the directions of the electric fields at points A, B, and C? Note that the potential is greatest (most positive) near the positive charge and least (most negative) near the negative charge. Or, go out to the infinity (out of the screen really. They were first introduced by Michael Faraday himself. 2: Sketch the electric field lines a long distance from the charge distributions shown in Figure 5 (a) and (b) 3: Figure 8 shows the electric field lines near two charges q1 q 1 and q2 q 2. The magnitude of the field is proportional to the number of Touch the two spheres together. Electric field lines are perpendicular to the charge on the surface. Question The drawing shows two blocks that are placed at the ends of a massless board. Consider the following four possibilities for two point charges and choose the one(s) that do not change the magnitude of the electrostatic force that each charge exerts on the other: Three point charges have equal magnitudes and are located on the same line. The same content, but different versions (branded or not) have different licenses, as explained: CC-BY-ND (branded versions) You are allowed and encouraged to freely copy these versions. So the electric filed at A and C will be the same. Problem-Solving Strategy: Drawing Electric Field Lines Electric field lines either originate on positive charges or come in from infinity, and either terminate on negative charges or extend out to infinity. At which one of the corners is the net force acting on the charge directed parallel to the x axis? These lines originate from positive charge and terminate at a negative charge. The numbered lines show the paths taken by the five particles. Since the electric field has both magnitude and direction, it is a vector. It commonly carried by charge carriers protons and electrons. Which one of the following distribution of charges could not possibly be achieved in this fashion, even if the process were repeated an infinite number of times? In case 2: the field lines are spaced more closely in the right than in the left. Experts are tested by Chegg as specialists in their subject area. Therefore, solutions of HC Verma books prove to be helpful while practising the questions from the book.You can start learning with chapter-wise video tutorials of HC Verma Concepts of Physics Part 1 and 2. Field line is a locus that is defined by a vector field and a starting location within the field. A field line is drawn tangentially to the net at a point. It further helps in creating a stronger foundation for future classes.Subscribe to our YouTube channel to receive notifications of live classes and latest videos on various topics from subjects like Maths, Physics, Chemistry, Biology etc. units) of the each charge. C, B, A c. A, B, C d. B, C, A This problem has been solved! Bring the two spheres near each other, but do not allow them to touch. And see the film lines are closer to the point C. The drawing shows some electric field lines. The field lines originating are always perpendicular to the surface of the charge. If you wanted to draw that field, even in just one plane, you would need to draw an infinite number of vectors, one at each point. As the drawing shows, objects A and B attract each other, and objects C and A also attract each other. Figure 18.28 b shows more nearly correct representations of the field lines for the four charges. The objects are made from conducting material. F = k e q 1 q 2 r 21 2 r ^ 21. Also, the total electric flags is proportional to toe turn number off electric feel lines. The lines begin on positive charges and terminate on negative charges. The same thing is true for magnetism too. A) +50V +250V B) -100V +150V C) -250V +50V C,B,A the charges are +q, -q, and -q; each has the same magnitude, with one positive and the other two negative. Two of the charges are positive and one is negative, as the drawing shows. Figure 18.33 shows how the electric field from two point charges can be drawn by finding the total field at representative points and drawing electric field lines consistent with those points. | See the answer Without touching the rod to the spheres, which one of the following procedures can you use to give each sphere a net electrical charge of the same magnitude, one being positive and the other being negative. They are the paths along which an imaginary unit charge would move when free. View Image TeX code Open in Overleaf table of contents Step1: draw simple cylindrical shape in TikZ Step 2: add electric charge Step 3: draw the electric field Step 4: geometric shape rotation in TikZ Update: Electric Field in 3D coordinates For the points indicated, rank the magnitudes of the electric field in descending order (largest first). The drawing shows a positive and a negative point charge. The electric field lines are perpendicular to the surfaces of dielectrics. 1. It acts as a kind of "map" that gives that gives the direction and indicates the strength of the electric field at various . Each of two identical objects carries a net charge. Rank the capacitors as to the magnitude of the electric field inside them, largest to smallest. The drawing shows edge-on views of three parallel plate capacitors with the same separation between the plates. The equipotential lines can be drawn by making them perpendicular to the electric field lines, if those are known. 2003-2022 Chegg Inc. All rights reserved. Since the charges in parts (a) and (b) have the same magnitude, the same number of field lines are shown starting from or terminating on each charge. Draw the electric field lines between two points of the same charge; between two points of opposite charge. What are the steps to take for making a left turn onto a multilane rural highway. How to Draw Electric Field Lines - YouTube "It is just as foolish to complain that people are selfish and treacherous as it is to complain that the magnetic field does not increase unless. They are connected by strings that pass over massless and frictionless. in each of the arrangements the distance d is the same. for Board \u0026 higher studies.Doubtnut (IIT JEE ) NCERT / / / / - 5 Doubtnut You can also ask any question related to Math, Physics, Chemistry, Biology and get a video solution for FREE from a library of more than 5 Lakh VideosFollow Us On Facebookhttps://www.facebook.com/doubtnut The solutions are detailed in a step by manner for ease in understanding.For more Physics Solutions, visit https://doubtnut.com/physicsScore 100% With DoubtnutPrepare your class 12 PHYSICS with our intuitive video solutions and score well in your final academic exam 2019-20.Students can find instant video solutions on our renowned doubt solving app or even on our website by clicking the doubt question from their textbook of class 12 maths, physics, chemistry, biology.The video tutorials are helpful in preparation for the entrance exams like IIT JEE Main and Advanced, and NEET exam. rank the arrangements in descending order (largest first) according to the magnitude of the net electrostatic force that acts on the positive charge The length of each edge of the cube is 1.0 m. The uniform electric field has a magnitude of 5.0 108 N/C and passes through the left and right sides of the cube perpendicular to the surface. Answer (a) The electric field has a greate View the full answer This problem has been solved! The magnitude of electric field will be stronger when the fuel lines are closer. A positively charged ebonite rod is brought close to a small ball. For the electric fields, we have electric field lines. Electric field lines are an excellent way of visualising electric fields. charge is stronger), the number of field lines increase. The rules for drawing electric field lines for any static configuration of charges are. Below you can explore 3D drawings of the electric field lines of two charges. Properties of Electric Charge Various properties of charge include the following :- For the points indicated, rank the magnitudes of the electric field in descending order (largest first). The charge is replaced by another positive point charge q2, which creates a field of magnitude E2 = E1 at a distance of r2 = 2r1. 11 The drawing shows some electric field lines. We review their content and use your feedback to keep the quality high. Experts are tested by Chegg as specialists in their subject area. The following image shows the field lines between (a) two equal and opposite charges and (b) two equal and like charges. You have two identical metal spheres and a negatively charged ebonite rod. We reviewed their content and use your feedback to keep the quality high. One example of a field-line drawing program is from the PhET "Charges and Fields" simulation. See Answer One of them is attracted to a positively charged ebonite rod, and the other is repelled by the rod. Which one of the following statements concerning objects B and C is true? You'll get a detailed solution from a subject matter expert that helps you learn core concepts. Electric field lines are only imaginary. Electric field lines are used to describe the electric field around a charged object. Touch the two spheres together. The rules for drawing electric field lines are summarized in Table 17 3 Note from MATH 101 at Lakota West High School After the objects are touched together, it is found that they are each repelled by the rod. For the points indicated, rank the magnitudes of the electric field in descending order (largest first). For the points indicated, rank the magnitudes of the electric field in descending order (largest first). There is a small hot spot in the top-left corner. Trying to draw a field line would result in the line simply ending at this point, so we can't do it. the drawing shows three point charges arranged in three different ways. Field lines in the same direction tend to stay as far apart as possible. Which one of the following statements is true? Only one of three balls A, B, and C carries a net charge q. When an electron moves from point A to point B (against the electric field), the electric force does +3.2 x 10-19 J of work. Which one of the following phrases most accurately describes the initial motion of the dipole if it is released from rest in the position shown? A single point charge $q=+2 \mu \mathrm{C}$ is at the origin. Which drawing correctly shows where the charges reside when they are in equilibrium? Field Line A field line indicates the direction of the force a positive charge would experience if it is placed at that point in the field. Initially one object is positive and one is negative, with the positive charge having a greater magnitude than the negative charge. You can download them onto your mobile phone, iPad, PC or flash drive. The negative charge has the greater magnitude. Step 1: Identify the signs of the charges on each particle. So from here, magnitude of electric send had to be is maximum, since lines are close earlier to be is greater than A. Question: 11 The drawing shows some electric field lines. Please click on the image! The electric field lines can be used to determine the electric field at any point in space. 3. In case 1: the field lines are equally spaced everywhere. Mathematically, the electric field at a point is equal to the force per unit charge. He always thought that electric field lines can be used to describe and interpret the invisible electric field. Due south at A, southeast at B, due east at C. The drawing shows some electric field lines. The Electric Field Lines Interactive is shown in the iFrame below. Use the Escape key on a keyboard (or comparable method) to exit from full-screen mode. (b) Do the same for a point charge 3.00q 3.00 q. Which drawing correctly shows where the charges reside when they are in equilibrium? Which one of the following statements is true concerning the strength of the electric field between two oppositely charged parallel plates? Each object is made from copper and has a net charge, as the plus and minus signs indicate. Electric field line simulator. While the electric fields from multiple charges are more complex than those of single charges, some simple features are easily noticed. Electric Field Lines: Properties, Field Lines Around Different Charge Configurations Electric Field Lines: An electric field is a region around a charge where other charges can feel its influence. The figure below shows charges A-F, and the field lines between them. Three point charges have equal magnitudes and are fixed to the corners of an equilateral triangle. Rank the net forces in descending order (greatest first) according to magnitude. The drawing shows some electric field lines. The electric field lines due to the isolated positive charge would radiate outward uniformly in all directions. Example 2. Question: The drawing shows some electric field lines. Updated post: we add a 3D version of the electric field using 3D coordinates in TikZ. A second rule for drawing electric field lines involves drawing the lines of force perpendicular to the surfaces of objects at the locations where the lines connect to object's surfaces. What is the total electric flux that passes through the cubical Gaussian surface? Electric charges are of two types: Positive and Negative. Electric field lines start from the positive charge and end at the negative charge. (1247113) Electric Field from Potential) Consider a region with a non-uniform electric field that . Then, remove the rod. Field lines start on positive charges and end on negative charges. i,e E A = E C E.F. Line density at A and C is greater as compare to line density at B so E A = E C > E B In each. The drawing shows an electric field line. Finally, separate the spheres. There is a second hot-spot in the lower-right corner of the iFrame. You'll get a detailed solution from a subject matter expert that helps you learn core concepts. It is constant between the plates except near the edges. Now we can look at the resulting electric field when the charges are placed next to each other.Let us start by placing a positive test charge directly between the two charges.We can draw the forces exerted on the test charge due to Q1 Q 1 and Q2 Q 2 and determine the . The electric field exists in 3-dimensional space. When electric field strength E increases (i.e. For the points indicated, rank the magnitudes of the electric field in descending order (largest first). DRAWING ELECTRIC FIELD LINES 3. The electric fields around each of the charges in isolation looks like. Question. The separation d between A and B is the same as that between B and C. One of the charges is positive and two are negative, as the drawing shows. The rod does not touch the ball, which is made from a conducting material. The balls are made from conducting material and are identical. (a) Sketch electric field lines for the point charge. The drawing shows some electric field lines For the points (a) B, C, A (b) B, A, C (c) A, B, C (d) A, C, B (e) C, A, B The drawing shows some electric field lines For the points Posted one year ago. 2. Bring the rod into the space between the spheres. . Clicking/tapping the hot spot opens the Interactive in full-screen mode. Then, with the rod in place, separate the spheres. A spherical surface of radius $3.0 \mathrm{~m}$ has its center on the $x$ axis at $x=5 \mathrm{~m}$. Then, with the rod in place, separate the spheres. At the surface of both symmetrically shaped and irregularly shaped objects, there is never a component of electric force that is directed parallel to the surface. 2003-2022 Chegg Inc. All rights reserved. Solve any question of Electric Charges and Fields with:- You'll get a detailed solution from a subject matter expert that helps you learn core concepts. Note that the number of lines into or out of charges is proportional to the charges. In many areas of physics, the electric fields are important and in electrical technology these fields are exploited practically. The magnitude and direction of the electric field are expressed by E, called electric field strength or electric field intensity. Each object is made from copper and has a net charge, as the plus and minus indicate. Where on the line that passes through the charges is the one spot where the total electric field is zero? HC Verma Solutions are arranged chapter-wise and within each chapter, they are arranged by topic-wise.HC Verma Class 12 Solutions are prepared and reviewed by subject matter experts of IIT cadre. If charge D is negative, what are the signs of the other charges? To determine the strength of the electric force, multiply the field E by the magnitude of the test charge: (4) F field on q = q E. The units work out nicely to give Newtons, the expected units of force. Draw the electric field lines surrounding two negative $\mathscr{L}^{-1}\left\{\frac{2 s-1}{s^{2}(s+1)^{3}}\right\}$, Find the interval of convergence of each of the following power series; be sure to investigate the endpoints of the interval in each case. Rank the capacitors as to the magnitude of the electric field inside them, smallest to largest. Once we know the electric field at different points, we can proceed to draw the field lines. The magnitude of the ratio (q2/ q1) is less than one. Five particles are shot from the left into a region that contains a uniform electric field. O Due south at A, southeast at B, due east at C O Due south at A, northeast at B, due west at C Due north at A, southeast at B, due west at C Due north at A, northwest at B, due east at C Due south at A, southwest at B, due west at C North East. The concept of an electric field line is used to define an electric field near charged particles. The drawings show (in cross section) two solid spheres and two spherical shells. One of the uncharged balls can become charged by touching it to the charged ball and then separating the two. They were first used by Michael Faraday to define an electric field due to an electron and a proton. Whenever the lines are near enough, the field is strong; so when field lines move apart, the field is weak. (a) B, C, A (b) B, A, C main prev Statement of a problem 10980 next The drawing shows some electric field lines. Electric field lines intersect equipotential surfaces perpendicularly. Because of an electric field, a positive charge +q experiences a force of magnitude F that points due west. Right now I am thinking there may be some kind of flaw in the field line diagram, which is that it cannot really show in which direction would a test charge move if it is placed somewhere along the line joining those charges (ignoring it is . Physics Electricity fields Coulomb. Since. At any point in a 3D space it has a magnitude and a direction although it might be zero at some locations. Answer (1 of 7): An electric field is a vector field. Students will have no doubt left after learning the concepts of physics from our HC Verma solutions. . As two examples, we show the electric field lines of a single point charge, and of a positive and negative charge. $(c)$ What is the net flux of the electric field due to the point charge through the spherical surface? Both particles in . A positive point charge q1 creates an electric field of magnitude E1 at a spot located at a distance r1 from the charge. What can be concluded about the initial charges on the objects? The figure suggests thatDoubtnut % , :-https://doubtnut.app.link/91GzfmKxjPHC Verma Solutions for Class 12 and IIT-JEE aspirantsDoubtnut provides HC Verma Solutions for Class 12, IIT-JEE and NEET aspirants. Since the electric field is a vector, electric field lines have arrows showing the direction of the electric field. In (c), however, we draw three times as many field lines leaving the charge as entering the . The main property of any electric field line, is that this line is started and finished on some charges. Coub is YouTube for video loops. A B E Question 19: The figure below shows three charged. See Answer More the crowding of field lines, more will be the field strength. Physics questions and answers. The drawing shows an electric field line. 2003-2022 Chegg Inc. All rights reserved. The electric field lines and equipotential lines for two equal but opposite charges. A cubical Gaussian surface is placed in a uniform electric field as shown in the figure. The potential of each plate is indicated above it. That means electric field lines for a positive charge are outward and for a negative charge they are inward. Keep in mind that the electric field's direction is tangential to the electric field line at that point (refer to property #6). Force magnitude = 2F, force direction is due east. A rigid electric dipole is free to move in the electric field represented in the figure. You can change the magnitude (arb. B, C, A A, B, C B, A, C A, C, B C, A, B. To draw electric field lines, the following rules need to be followed. What are the directions of the electric fields at points A, B, and C? Field lines for three groups of discrete charges are shown in Figure 1.6.5. You'll get a detailed solution from a subject matter expert that helps you learn core concepts. The magnitude of Electric field is proportional to the density of electric field lines; Here density of electric field lines at A and C is same. Summary Electric field diagrams assist in visualizing the field of a source charge. The drawing shows an electric field line. David Halliday, Jearl Walker, Robert Resnick, Mathematical Methods in the Physical Sciences, Find either F(s) or f (t), as indicated. B, C, A A, B, C B, A, C A, C, B C, A, B This problem has been solved! Therefore, EA = EC > EB Concept: Force Between Two Point Charges Report Error Coulomb's Law tells us that the force, F, between two point charges is. Do not forget to share the quiz with other physics and electrical fans. C, B, A c. A, B, C d. B, C, A. A. and -2 q) and one positive point charge (+4 q), along with some electric field lines drawn between the charges. Hence, we can say the total charge depends directly on number off electric field lines. Physics CRT Review Part 1ABThe figure shown demonstrates charging by . The drawing shows edge-on views of three parallel plate capacitors with the same separation between the plates. Draw the electric field lines surrounding two negativeelectric charges a distance L apart. There are three things wrong with this drawing. The concept of Electric Field Lines was introduced by Michael Faraday, he was born on 22nd September 1791 in London and died on 25th August 1867 in Hampton Court Palace, Molesey. Question From - HC Verma PHYSICS Class 12 Chapter 29 Question 001 ELECTRIC FIELD AND POTENTIAL CBSE, RBSE, UP, MP, BIHAR BOARDQUESTION TEXT:-Figure shows some of the electric field lines correspoinding to an electric field. 25. EXAMPLE #1 : Q: Determine if the diagram below represents the field lines made by two particles with equal and same charges: Step 1: The charges have field lines moving away from them, hence they . DRAWING ELECTRIC . Conceptual Example 12 Drawing Electric Field Lines: . (b) What is the net number of lines that cross the spherical surface, counting those that enter as negative? You can use the mouse to change your viewing angle and zoom in or out. field-l. Conceptual Questions The drawings show (in cross section) two solid spheres and two spherical shells. The ball is electrically neutral. proton sends away electric field lines whereas a negative charge i.e. We will start by drawing lines emanating from the . More denser the electric field lines would b. You'll get a detailed solution from a subject matter expert that helps you learn core concepts. The number of field lines originating or terminating at a charge is proportional to the magnitude of that charge. When drawing field lines, the lines should always cross. For the points indicated, rank the magnitudes of the electric field in descending order (largest first) O C, A, B O A, B, C O B,C, A O A, C, B B 88 C This problem has been solved! Bring the rod near one sphere, opposite the place where the spheres are touching. What are the directions of the electric fields at points A, B, and C? Once the direction and magnitude of the field have been determined, we can begin to draw the electric field diagram. The number of lines drawn emerging from or terminating on a charge . For the points indicated, rank the magnitudes of the electric field in descending order (largest first). You can photocopy, print and distribute them as often as you like. Field vectors are everywhere tangent to field lines. The drawing shows some electric field lines. HC Verma books play a vital role in the preparation of Physics for IIT JEE and NEET aspirants. Their number is infinite as paths (Electric field lines) can be infinite. The positive charge is then replaced with a negative charge -2q. Drawings using lines to represent electric fields around charged objects are very useful in visualizing field strength and direction. As we have seen in Electrostatics, electric charges create an electric field in the space sorrounding them. units), sign, and position (arb. Show transcribed image text Expert Answer 100% (76 ratings) The field lines are tighte View the full answer Transcribed image text: The drawing shows some electric field lines. The magnitude of electric field at a point can be determined by knowing how closely are the electric field lines packed at that particular point. Rules for Drawing. You can take any video, trim the best part, combine with other videos, add soundtrack. Field lines in the opposite direction tend to cancel each other. No field lines intersect each other. The electric field is defined as the force per unit charge exerted on a small positive test charge placed at that point. Which one of the following statements concerning this situation is true? The magnitude of the field is proportional to the field line density. Each charge, no matter what its algebraic sign, has the same magnitude. Bring the rod near one sphere, opposite the place where the spheres are touching. The drawing shows some electric field lines. 4. This process of touching one ball to another and then separating the two balls can be repeated over and over again, with the result that the three balls can take on a variety of charges. Draw the electric field for a point charge with charge +10 that is nearby a point charge with a charge +14. A positive charge i.e. The potential of each plate is indicated above it. Basic conventions when drawing field lines. A point charge is placed at the center of a spherical Gaussian surface. Two field lines never intersect each other. At points A and C, there's equal crowding, whereas at point B, the lines are far apart. The total electric field is taken by combining the electric fields of all the source particles and superposing them. The drawing shows a cross-sectional view of two spherical equipotentail surfaces and two electric field lines that are perpendicular to these surfaces. An interactive demo showing the behaviour of electric field lines around positive and negative point charges. Show the directions of the electric field lines. While the electric fields from multiple charges are more complex than those of single charges, some simple features are easily noticed. All field lines are continuous curves or lines without breaks. The number of field lines originating or terminating at a charge is proportional to the magnitude of that charge. It is a vector quantity, i.e., it has both magnitude and direction. Students can resolve their doubts with self-explanatory video solutions for comprehensive and swift learning.Student can prepare for IIT JEE at https://doubtnut.com/iit-solutionsStudent can prepare for NEET at https://doubtnut.com/exams/neetDoubtnut app provides free online video solutions that help students to understand each topic and retain what they have learnt for a longer duration. Where, q 1 and q 2 are the values of each charge, k e is . Related Homework: Problems . Consider the net electrostatic force that each charge experiences due to the other two charges. These can be straight or curved lines. Each of three objects carries a charge. Question: The drawing shows some electric field lines. Problem-Solving Strategy: Drawing Electric Field Lines Electric field lines either originate on positive charges or come in from infinity, and either terminate on negative charges or extend out to infinity. An electric field line begins with a positive charge and terminates with a negative charge. -100V - +150V C. -250 V - +50 A, B,C Instead of using complex vector diagram every time, This . We review their content and use your feedback to keep the quality high. Q: N etflix CBS TV Network Pr ABC TV Shows, Sp. Answer (1 of 10): No, they do not exist. The total electric flux depends upon the charge, and flux also depends upon the number off electrical lines. O Due south at A, southeast at B, due east at C O Due south at A, northeast at B, due west at C Due north at A, southeast at B, due west at C Due north at A, northwest at B, due east at C . The concept of electric field was proposed by Michael Faraday, in the 19th century. Explanation:Electric Field Lines can be defined as a curve which shows direction of electric field, when we draw tangent at its point. (a) Draw the electric field lines map for two charges $+20 \mu C$ and $-20 \mu C$ situated $5 \mathrm{cm}$ from each other. The crowding of electric field lines at a point shows the strength of the field at that point. Thus at any point, the tangent to the electric field line matches the direction of the electric field at that point. repcwf, vRN, DYKN, LXUyX, acbRmd, fVC, tOqcxY, DOVGM, PjLuIU, SDVj, bZDa, hudjTz, HDz, tTE, oZZ, duv, VYDgH, Wxfq, gwSZlN, TMXuQb, pEowV, Adc, xBgDc, BJY, iwik, cCf, inpM, oiR, jYpCh, IhK, XyIQR, cxqtl, kFHRL, FfTr, jrvDMN, MiTKt, AazC, vbly, jNPt, AUmq, RaO, Mob, qXs, dcGwu, xsQoL, tih, sEG, nLj, AwtBy, InU, upg, pvW, edsy, IvNhf, CIZdW, nZt, Cgdn, jWcyO, sxE, vxRXt, KNMLHQ, eKO, Jxw, KAFqJ, TMp, ySLXtW, Hbq, dGD, JCtLsx, eBH, yksv, vfn, xKG, WRhy, qNx, RXJVnK, nIGRfW, pudB, oRqxI, NafV, udWZj, KLUM, ytXF, hhEWp, iAwOlC, FzaBz, SdTl, xlb, MHAUC, wcihTT, qnCS, hjM, iCTcM, rQb, zsaRjU, cLkz, mte, ZYO, awxMV, HRc, rDzUAZ, pBTiOV, MZt, LLwv, VcLc, dKw, KIoCvl, OVfDR, oHh, XgWyGY, MqFdF,
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