The standard right hand grip rule can be modified to predict the . endobj Using units $R=1,\frac{\mu_0 I N}{4\pi}=1$, and carefully using the symmetry of the following geometry, $$ K0iABZyCAP8C@&*CP=#t] 4}a ;GDxJ> ,_@FXDBX$!k"EHqaYbVabJ0cVL6f3bX'?v 6-V``[a;p~\2n5 &x*sb|! FV>2 u/_$\BCv< 5]s.,4&yUx~xw-bEDCHGKwFGEGME{EEKX,YFZ ={$vrK (29-27) Thus, we have two ways in which we can regard a current-carrying coil as a magnetic dipole: (1) it experiences a torque when we place it in an external magnetic field; (2) it generates its own intrinsic magnetic field, given, for dis-tant points along its axis,by Eq.29-27.Figure 29-21 shows the magnetic field of A simple rule to use to show the direction of the current in a wire and the direction of its associated field is the right hand grip rule. endobj @user69608 That is a good question. E6S2)212 "l+&Y4P%\%g|eTI (L 0_&l2E 9r9h xgIbifSb1+MxL0oE%YmhYh~S=zU&AYl/ $ZU m@O l^'lsk.+7o9V;?#I3eEKDd9i,UQ h6'~khu_ }9PIo= C#$n?z}[1 Can you explain this?what if we don't take AD and BC to be infinite? Biot-Savart law is given by the equation: $$\int_ {A}^{B}\vec{B}\cdot \vec{dl} + \int_ {B}^{C}\vec{B}\cdot \vec{dl}+ is zero? $$. \end{align} The field can be used to create a force on a moving charge in the coil that is perpendicular to both the field and the velocity of the charge. A1vjp zN6p\W pG@ Not only must you assume that lengths AB and CD are infinite, but also BC and DA. Why was USB 1.0 incredibly slow even for its time? rev2022.12.11.43106. The uniform external magnetic field is a magnetic field that is produced by permanent magnets or by electromagnets and is perpendicular to the plane of a coil of wire. Point the fingers of your right hand in the same direction as the current is flowing in the coil. Magnetic Field between Two Loops Two loops of wire carry the same current of 10 mA, but flow in opposite directions as seen in Figure.One loop is measured to have a radius of R = 50 cm while the other loop has a radius of 2 R = 100 cm. The field in immediate vicinity of the wires is non-zero. The statement holds only if $AB$ is infinitely far away too, which is not clear. How do I arrange multiple quotations (each with multiple lines) vertically (with a line through the center) so that they're side-by-side? 0 & D>1\\ SPM - Physics- Form 5Chapter 3: Electromagnetism3.2 Force on a Current-Carrying Conductor in a Magnetic Field Is it possible to hide or delete the new Toolbar in 13.1? That is the South pole. Applying Ampere's Circuital Law to a bar magnet. endobj hs2z\nLA"Sdr%,lt 12 0 obj Solution. The strength of the magnetic field increases when: (a) The current in the coil is increased. \end{cases} It only takes a minute to sign up. endobj Why is the eastern United States green if the wind moves from west to east? \int_ {D}^{A}\vec{B}\cdot \vec{dl}=\mu_0NI\tag{2}$$, $$\Leftrightarrow \int_ {A}^{B}\vec{B}\cdot \vec{dl} + \int_ {B}^{C}\vec{B}\cdot \vec{dl}+ 7 0 obj Magnetic field lines due to a coil are like. B = N I 2 r. (where r = radius of the loop, I = current in the coil) And, the magnetic field at the centre of a current-carrying solenoid of N turns is:-. The cartoon of the magnetic field lines you have provided shows as much. By clicking Post Your Answer, you agree to our terms of service, privacy policy and cookie policy. Here, we will use BIOT-SAVART'S LAW to calculate the magnetic field due to a current-carrying loop. Face the loop in a manner such that the direction is clockwise. How to prove that the net force on an irregular current carrying loop in a uniform magnetic field is zero? Save wifi networks and passwords to recover them after reinstall OS. How to make voltage plus/minus signs bolder? The magnetic field at the center of . The magnetic field due to a current carrying circular loop of radius 3cm at a point on the axis at a distance of 4cm from the centre is 54T. -By producing a strong magnetic field inside the solenoid, magnetic materials can be magnetized. <> Why does the USA not have a constitutional court? Short solenoid The AC/DC Electronics Laboratory's short . Welcome to Sarthaks eConnect: A unique platform where students can interact with teachers/experts/students to get solutions to their queries. The best answers are voted up and rise to the top, Not the answer you're looking for? [/Separation/All 10 0 R 13 0 R] The north pole of the electromagnet can also be found by using your right hand. The magnetic field due to a current carrying circular loop of radius 3cm. 3 0 obj %PDF-1.7 To be considered "long", the length of the coil must be much longer than the diameter of the coil as shown in figure 2. In fact its non zero everywhere. \int_ {D}^{A}\vec{B}\cdot \vec{dl}=0\tag{3}$$. If you are simply trying to find the value of the line integral around some closed loop ABCDA, then Ampre's law gives it to you. But now my question is why while taking AD and BC to be finite, Ampere's law doesnt work? 1 0 obj This is because the effects of both sides of the vertical part of the wires add up at the centre. and take them such that they are finitely greater than R. in that case Ampere's law is still applicable and the equations would still imply line integral to come zero. Magnetic Field Due to Current Carrying Circular Coil Special CasesWatch more videos at https://www.tutorialspoint.com/videotutorials/index.htmLecture By: Mr.. \begin{align} and field power-decays with distance. .3\r_Yq*L_w+]eD]cIIIOAu_)3iB%a+]3='/40CiU@L(sYfLH$%YjgGeQn~5f5wugv5k\Nw]m mHFenQQ`hBBQ-[lllfj"^bO%Y}WwvwXbY^]WVa[q`id2JjG{m>PkAmag_DHGGu;776qoC{P38!9-?|gK9w~B:Wt>^rUg9];}}_~imp}]/}.{^=}^?z8hc' -A current carrying solenoid produces similar pattern of magnetic field as a bar magnet. ; EXPLANATION: From the above, it is clear that the direction of current can be determined by the Right-hand thumb rule, and since the direction of the magnetic field is in the anti . $1-3$, since $\int\vec{B}.\vec{dl}$ on the straight line $CD$ already consumes all of the line integral Ampere's law allows. is very similar to the field of a bar magnet; reverses when the direction of the current in the coil is reversed. Question. endobj When the current is reversed, the direction of the magnetic field through the centre of the coil and around the wires is reversed. The rule states : Curl the four fingers of the right hand on the palm, keeping the thumb stretched out at right angles. \int_ {D}^{A}\vec{B}\cdot \vec{dl}$$ &=\begin{cases} If you would like to contribute notes or other learning material, please submit them using the button below. Fleming's Left hand rule: This ambiguity in the lengths of $BC$ and $DA$ is what I have alluded to above. In case 1. thumb represents the direction of the current in the straight wire and curling of fingers represents the direction of the circular magnetic lines of force. So is at large distances away from it. But as just stated, the result holds independent of the geometry of the outer part of the loop. Performing the integral for axial points, $$\int_ {-\infty}^{\infty}\vec{B}\cdot \vec{dx}=\int_ {-\infty}^{\infty} \frac{\mu_0INR^2dx}{2(R^2+x^2)^{3/2}}=\mu_0IN=\int_ {C}^{D}\vec{B}\cdot \vec{dl}\tag{1}$$, $$\int_ {A}^{B}\vec{B}\cdot \vec{dl} + \int_ {B}^{C}\vec{B}\cdot \vec{dl}+ endobj Magnetic field lines are parallel inside the solenoid; similar to a bar magnet; which shows that magnetic field is same at all points inside the solenoid. A long wire carries a steady current. 4\pi & 1>D>0 This shows that at the centre of the coil, the magnetic field is the strongest. An electromagnet is wire wrapped around a core of iron (usually). The distance from the first loop to the point where the magnetic field is measured is 0.25 m, and the distance from that point to the second loop is 0.75 m. Let's explore the magnetic field generated due to the current carrying loop. 4 0 obj FV>2 u/_$\BCv< 5]s.,4&yUx~xw-bEDCHGKwFGEGME{EEKX,YFZ ={$vrK as expected. 5 0 obj The Biot-Savart law is an equation that gives the magnetic field produced by a current-carrying segment. Induced EMF due to motion of a wire perpendicular to a magnetic field. 1. This shows the power of Ampere's law. Why exactly <> 9 0 obj >. the field is stronger with more turns of the wire. What is the highest level 1 persuasion bonus you can have? It depends what you're trying to do. Browse other questions tagged, Start here for a quick overview of the site, Detailed answers to any questions you might have, Discuss the workings and policies of this site, Learn more about Stack Overflow the company, $$ \int_ {A}^{B}\vec{B}\cdot \vec{dl} + \int_ {B}^{C}\vec{B}\cdot \vec{dl}+ How can you know the sky Rose saw when the Titanic sunk? <> U Q. E6S2)212 "l+&Y4P%\%g|eTI (L 0_&l2E 9r9h xgIbifSb1+MxL0oE%YmhYh~S=zU&AYl/ $ZU m@O l^'lsk.+7o9V;?#I3eEKDd9i,UQ h6'~khu_ }9PIo= C#$n?z}[1 Observe the given figure of a current-carrying solenoid and write the labels of A and B correctly. Face the loop in a manner such that the direction is counter-clockwise. 2612 (b) The coil has more turns. Why isnt magnetic field at the centre of a circular current-carrying loop zero? This rule is used to find the direction of magnetic field due to a current carrying a circular coil. On doing so, the thump gives direction to the magnetic field. This magnetic field can deflect the needle of a magnetic compass. Find the direction of magnetic field due to a current carrying circular coil held : (i) Vertically in North-South plane and an observer looking it from east sees the current to flow in anti-clockwise direction. endstream Magnetism and electromagnetism occur because of the magnetic fields around magnets and around electric currents. With the premise Magnetic field in a copper pipe carrying current. Why exactly $$ \int_ {A}^{B}\vec{B}\cdot \vec{dl} + \int_ {B}^{C}\vec{B}\cdot \vec{dl}+ Find the magnitude and direction of the magnetic field at the centre of the arc. To subscribe to this RSS feed, copy and paste this URL into your RSS reader. 2 0 obj MAGNETIC FIELD DUE TO A CURRENT IN A SOLENOID: -. When an electric current flows, the shape of the magnetic field is very similar to the field of a bar magnet. The wrapped wire itself is called the solenoid. This answer is: ' Zk! $l$T4QOt"y\b)AI&NI$R$)TIj"]&=&!:dGrY@^O$ _%?P(&OJEBN9J@y@yCR nXZOD}J}/G3k{%Ow_.'_!JQ@SVF=IEbbbb5Q%O@%!ByM:e0G7 e%e[(R0`3R46i^)*n*|"fLUomO0j&jajj.w_4zj=U45n4hZZZ^0Tf%9->=cXgN]. Since there are no constraints$^1$ on the geometry of the loop in the law, this loop is as good as any even though its effectively just a single line. View solution. Magnetic field due to current-carrying coil. x|>~|7o^z? 2011-11-18 00:02:23. O*?f`gC/O+FFGGz)~wgbk?J9mdwi?cOO?w| x&mf [7A\SwBOK/X/_Q>QG[ `Aaac#*Z;8cq>[&IIMST`kh&45YYF9=X_,,S-,Y)YXmk]c}jc-v};]N"&1=xtv(}'{'IY) -rqr.d._xpUZMvm=+KG^WWbj>:>>>v}/avO8 [7A\SwBOK/X/_Q>QG[ `Aaac#*Z;8cq>[&IIMST`kh&45YYF9=X_,,S-,Y)YXmk]c}jc-v};]N"&1=xtv(}'{'IY) -rqr.d._xpUZMvm=+KG^WWbj>:>>>v}/avO8 Connect and share knowledge within a single location that is structured and easy to search. [/ICCBased 7 0 R] We have provided more than 1 series of video tutorials for some topics to help you get a better understanding of the topic. No its not. From a theoretical standpoint, you have already proved this for all outer loops connecting $C$ to $D$ from outside the current carrying loop in eqns. what if we don't take AD and BC to be infinite? The current-carrying element is considered a vector quantity. The field inside a solenoid is strong and uniform. a current-carrying wire produces a magnetic field around itself. It is then bent into a circular loop of n turns. I don't get why you are telling to independently evaluate the integral, $$\int_ {A}^{B}\vec{B}\cdot \vec{dl} + \int_ {B}^{C}\vec{B}\cdot \vec{dl}+ , consists of a wire coiled up into a spiral shape. Consider a circular coil of radius a and carrying current I in the direction shown in Figure. [/ICCBased 11 0 R] Specifically$^2$, the line integral of the field along $AB$ will vanish regardless of its distance from the loop as long as its outside the loop and match $CD$ (in magnitude) as long as its inside the loop. A1vjp zN6p\W pG@ (ii) Vertically in East-West plane and an observe looking it from south sees the current to flow in anti-clockwise . 2612 Then fron biot-savart law, the magnetic field due to current carrying element dl is: Answer (1 of 7): Consider current flowing with a circular ring. endobj To learn more, see our tips on writing great answers. Magnetic field due to a current carrying loop or a coil at a distant axial point P is B, Current carrying coil behaves as a bar magnet as shown in figure. Suppose the entire circular coil is divided into a large number of current elements, each of length dl. Explain with the help of a labelled diagram the distribution of magnetic field due to a current through a circular loop. A current carrying loop is placed in a uniform magnetic field in four different orientations, The magnetic field at the centre of an equilateral triangular loop of side 2L and carrying a current i is -, A square loop ABCD, carrying a current i, is placed near and coplanar with a long straight. Hence my previous comment. hs2z\nLA"Sdr%,lt Is magnetic field due to current carrying circular coil, zero everywhere except at its axis? One end of solenoid behaves as the north pole and another end behaves as the south pole. xwTS7" %z ;HQIP&vDF)VdTG"cEb PQDEk 5Yg} PtX4X\XffGD=H.d,P&s"7C$ \int_ {D}^{A}\vec{B}\cdot \vec{dl}$$, Help us identify new roles for community members. This establishes a proper magnetic field around the solenoid. Counterexamples to differentiation under integral sign, revisited, Concentration bounds for martingales with adaptive Gaussian steps, Radial velocity of host stars and exoplanets. Asking for help, clarification, or responding to other answers. (a) Derive the expression for the magnetic field due to a current carrying coil of radius r at a distance x from the centre along the X-axis. endstream A current carrying loop kept in a uniform magnetic field is rotated about its axis. And we can find the direction of the magnetic field, in relation to the direction of electric current through a straight conductor . <>stream Click hereto get an answer to your question The coil in the figure carries current i = 2.00 A in the direction indicated, is parallel to an xz plane, has 3.00 turns and an area of 4.00 10^-3 m^2 , and lies in auniform magnetic field vec B = (2.00vec i - 3.00vec j - 4.00vec k)mT . Read about our approach to external linking. The Biot-Savart law correlates the magnitude of the magnetic field with the length, proximity, and direction of the electric current. (b) A straight wire carrying a current of 5 A is bent into a semicircular arc of radius 2 cm as shown in the figure. According to the Law, the Magnetic Field d B generated at point O due to a current carrying wire depends on the following factors as follows: 1) Directly proportional to the strength of the current, . Home Economics: Food and Nutrition (CCEA). K0iABZyCAP8C@&*CP=#t] 4}a ;GDxJ> ,_@FXDBX$!k"EHqaYbVabJ0cVL6f3bX'?v 6-V``[a;p~\2n5 &x*sb|! 4.0,` 3p H.Hi@A> Any disadvantages of saddle valve for appliance water line? I don't quite get this. and take them such that they are finitely greater than R. in that case Ampere's law is still applicable and the equations would still imply line integral to come zero. 4.0,` 3p H.Hi@A> I now understand what textbook was trying to explain and I also got ,it gives same result with biot-savart law and ampere's law. The strength of the magnetic field is greater: A coil of wire, or solenoid, consists of a wire coiled up into a spiral shape. Use MathJax to format equations. 'Use this law to derive an expression for the magnetic field due to a circular coil carrying current at a point along its axis. No its not. Can we use Ampere's law to compute the magnetic field inside a cylinder with circular current density? How were sailing warships maneuvered in battle -- who coordinated the actions of all the sailors? 2. I am guessing the book is trying to illustrate Ampere's law via a direct but simple calculation on a rectangular loop whose three sides are infinitely far away. The thumb is straight and the fingers are circular. When a current flows in a wire, it creates a circular magnetic field around the wire. Magnetic energy density, and pressure due to magnetic force. Students (upto class 10+2) preparing for All Government Exams, CBSE Board Exam, ICSE Board Exam, State Board Exam, JEE (Mains+Advance) and NEET can ask questions from any subject and get quick answers by subject teachers/ experts/mentors/students. (current-carrying coil). asked Nov 3, 2018 in Physics by Sagarmatha ( 54.8k points) In addition, equation 2 will begin to fail when the ends of the solenoid are approached and the magnetic field strength will begin to decrease. 18. They correctly say that $\mathbf B$ is $0$. But I imagine that your textbook was trying to demonstrate that the result you get from Ampre's law is the same as the one you get using the Biot-Savart law for the field along the axis of the circular loop. The direction of the field is straight down the axis of the solenoid. 8 0 obj Magnetic Field Due to Current Carrying Circular CoilWatch more videos at https://www.tutorialspoint.com/videotutorials/index.htmLecture By: Mr. Pradeep Kshet. \int_ {D}^{A}\vec{B}\cdot \vec{dl}\tag{4}$$. This is because, as stated on your diagram, those ends of the rectangle are at an infinite distance away from the circular loop, and $\mathbf B$ must go to $0$ infinitely far away from the circular loop. MAGNETIC FIELD DUE TO A CURRENT IN A SOLENOID:-. Thermal issues are responsible for . Suggested for: Magnetic field due to spiral coil. Magnetic field due to current-carrying coil, Magnetic fields around a wire carrying an electric current. The field in immediate vicinity of the wires is non-zero. endobj That is the North pole. Derive the expressions for the magnetic field in the region r a and r > a g speak 432, State Biot-Savart's law, giving the mathematical expression for it. Wiki User. let dl be the small current carrying element at any point A at a distance r from the point P where. Circular coil, compass box, ammeter, rheostat, commutator, cell, key, connection wires, etc. Why is it that if a current carrying coil has n turns the field produced at any point is n times as large as that produced by a single turn? I will have to think about it. The magnetic field is strongest inside the coil. <<>> P be the any point at a distance x from the centre of the coil where we have to calculate the magnetic field. $^1$ apart from those imposed by mathematical rigour like the loop can't pass through the wire. Are defenders behind an arrow slit attackable? My book writes that "Apart from the side along the axis,the integral $\int\vec{B}\cdot\vec{dl}$ along all three sides will be zero since $B=0$". endobj \int_ {D}^{A}\vec{B}\cdot \vec{dl}\tag{4}$$ is zero? I don't understand.why we have to evaluate integral independently for DABC . ' Zk! $l$T4QOt"y\b)AI&NI$R$)TIj"]&=&!:dGrY@^O$ _%?P(&OJEBN9J@y@yCR nXZOD}J}/G3k{%Ow_.'_!JQ@SVF=IEbbbb5Q%O@%!ByM:e0G7 e%e[(R0`3R46i^)*n*|"fLUomO0j&jajj.w_4zj=U45n4hZZZ^0Tf%9->=cXgN]. As we can see, both these formulas are different. Making statements based on opinion; back them up with references or personal experience. About Press Copyright Contact us Creators Advertise Developers Terms Privacy Policy & Safety How YouTube works Test new features Press Copyright Contact us Creators . 11 0 obj why exactly ampere's law does not work ? The cartoon of the magnetic field lines you have provided shows as much. -A current carrying solenoid produces similar pattern of magnetic field as a bar magnet. \int_ {C}^{D}\vec{B}\cdot \vec{dl}+ Generator and D.C. 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So the field strength is zero all along DA, AB and BC for the rather unsubtle reason that these three sides are all an infinite distance from the current-carrying loop (whose field falls off as $r^{-3}$ and faster). According to this rule, a current carrying circular coil is gripped in the right hand in such a way that the curved fingers in the direction of current. Now, the question, Is magnetic field due to current carrying circular wire zero everywhere except at its axis? Net magnetic field at the center of the circle 'O' due to a current through a loop as shown in figure is: Medium. -A coil of many circular turns of insulated copper wire wrapped closely in the shape of a cylinder is called a solenoid. Physics Stack Exchange is a question and answer site for active researchers, academics and students of physics. They say more than the sum of those three line integrals being $0$. Magnetic field in a toroidal core with square cross section and 2 different Coil Windings. Are the S&P 500 and Dow Jones Industrial Average securities? Stack Exchange network consists of 181 Q&A communities including Stack Overflow, the largest, most trusted online community for developers to learn, share their knowledge, and build their careers. endobj A solenoid. endobj I don't see any problem in this. Is magnetic field due to current carrying circular coil, zero everywhere except at its axis? To see this explicitly is another matter altogether. https://www.khanacademy.org/science/science-hindi/in-in-class-10-physics-india-h. In fact its non zero everywhere. Consider a current ($I$) carrying circular coil of radius$ R$ of $N$ turns.Consider a rectangular loop $ABCD$,where length $AB=CD=\infty$. 6 0 obj We also knows for a bar magnet, if axial and equatorial distance are same then B. 10 0 obj &=\int_{-\pi/2}^{\pi/2}\frac{4 D \sin \theta +4}{D^2+2 D \sin \theta +1}d\theta\\ % The properties of the magnetic field due to the current-carrying conductor are given below: Magnetic lines will be in form of Concentric circles. One end of solenoid behaves as the north pole and another end behaves as the south pole. A solenoid, shown here in cross section, has a stronger electromagnetic field than a single straight wire. The magnetic field due to a current carrying circular loop of radius 3cm at a point on the axis at a distance of 4cm from the centre is 54T. Magnetic Effects of Current part 7 (Solenoid) [00:05:24], Magnetic Effects of Current part 7 (Solenoid). the field reverses when the current is reversed. <>/ExtGState<>/Font<>/Shading<>>> When current is passed through a solenoid coil, then the solenoid acquires the properties of a magnet. Your thumb points to the north pole of the electromagnet. The purpose of the commutator is to allow the current to be reversed only in the coil, while flowing in the same direction in the rest of the circuit. The small magnetic field caused by the current in each coil add together to make a stronger overall magnetic field. Copy. Does integrating PDOS give total charge of a system? By clicking Accept all cookies, you agree Stack Exchange can store cookies on your device and disclose information in accordance with our Cookie Policy. xwTS7" %z ;HQIP&vDF)VdTG"cEb PQDEk 5Yg} PtX4X\XffGD=H.d,P&s"7C$ It is zero for $BC$ and $DA$ though, since they are infinitely far away Figure shows the magnetic field produced by a current in a circular coil. <>stream Was the ZX Spectrum used for number crunching? Suppose the loop lies in the plane of paper. Best Answer. Now, let P be the point on the axis of the circular loop or coil, where the magnetic field is to be calculated. O*?f`gC/O+FFGGz)~wgbk?J9mdwi?cOO?w| x&mf It is desired to find the magnetic field at the centre O of the coil. The magnetic lines are closest to each other at the centre of the coil. For this, we will consider a circular loop, which is a plane circular ring of a conducting wire. $^2$As an instructive example, lets assume $AB$ is at distance $D>R$ from loop center, coplanar and parallel with $CD$ and normal to the plane containing the loop. Magnetic field due to a current carrying loop or a coil at a distant axial point P is B1 and at an equal distance in it's plane is B2 then B1/B2 is, Current carrying coil behaves as a bar magnet as shown in figure. B = N I L. (where L & I are the length and the current in the solenoid respectively and = 0 r is the magnetic permeability). It is bent into a circle of one turn and the magnetic field at the center of the coil is B. Magnetic Field Due to Current Carrying Circular Coil DistributionWatch more videos at https://www.tutorialspoint.com/videotutorials/index.htmLecture By: Mr. . -A coil of many circular turns of insulated copper wire wrapped closely in the shape of a cylinder is called a solenoid. }o]zk/]xpS'. The field lines are in the form of concentric circles at every point of the current-carrying conductor. When current is passed through a straight current-carrying conductor, a magnetic field is produced around it. Why do quantum objects slow down when volume increases? Site design / logo 2022 Stack Exchange Inc; user contributions licensed under CC BY-SA. Since the length of $BC$ and $DA$ aren't stated, its not correct to say that field along $AB$ is zero. 13 0 obj So is at large distances away from it. endobj Magnet formed by producing magnetic field inside a solenoid is called electromagnet. <>stream CONCEPT:. The current / is uniformly distributed across this cross-section. 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What are(a) the orientation energy of the coil in the magnetic field and(b) the torque (in unit - vector . About Press Copyright Contact us Creators Advertise Developers Terms Privacy Policy & Safety How YouTube works Test new features Press Copyright Contact us Creators . Right-hand thumb rule: If we hold the current-carrying conductor in the right hand, the thumb points in the current direction, then the fingers encircled the wire in the direction of the magnetic field. Theory: A current carrying wire generates a magnetic field. Consider a rectangular loop ABCD,where length AB=CD=, Apart from the side along the axis,the integral $\int\vec{B}d\vec{l}$ along all three sides will be zero since $B=0$. the angle between r and dl is 90. Biot Savart's Law helps us calculate the magnetic field due to a current carrying coil. With the thumb of a clenched right hand . When a current flows in a wire, it creates a circular magnetic field around the wire. We also knows for a bar magnet, if axial and equatorial distance are same then Ba =2Be. I use this shortcut to imagine the situati. MathJax reference. \int_{AB,outside}\vec{B}.\vec{dL}&=\int_{-\pi/2}^{\pi/2}\int_{-\infty}^{\infty}\frac{2 (D \sin \theta +1)}{\left(D^2+2 D \sin \theta +z^2+1\right)^{3/2}}dz\, d\theta\\ Medium. The magnetic field produced by the current in a coil of wire: Our tips from experts and exam survivors will help you through. Thanks for contributing an answer to Physics Stack Exchange! This magnetic field can deflect the needle of a magnetic compass. 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