c. Left b. Lenss Law An induced current always flows in a direction that opposes the change (of the magnetic flux) that causes it. According to the right-hand rule, an induced clockwise current will generate a magnetic field into the page. magnetic field pointing into the paper. -By changing the Direction of the induced magnetic field II. The flux is decreasing because the magnet is moving away, so the induced magnetic field must be pointing in the same direction as B1 to counteract the weakening field. Lenz's law is based on Faraday's law of Induction which says, a changing magnetic field will induce a current in a conductor whereas Lenz's law tells us the direction of the induced current, which opposes the initial changing magnetic field which produced it.

Since is tangent to the coil, When combined with Equation 10.4.4, this gives. B b. Find what the direction of the induced magnetic field must be so that it can oppose the change in flux by adding or subtracting from the original field. the process of generating magnetic field due to a current passing through a coil. The most important thing to remember is that the induced current opposes whatever change is taking place. Direction of Induced Current. What is the direction of induced current (clockwise or counter-clockwise)? Taking an instance, the magnetic field is stronger and crowded near the poles of a magnet. The magnetic field is a field, produced by electric charges in motion. Middle Finger shows direction of Induced current. They describe the direction of the magnetic force on a north monopole at any given position. Question : What is the direction of the induced magnetic field within the coil in the b).

In what direction does the induced current flow? What is the direction of induced magnetic field (in or out)?

anticlockwise direction. b. A. clockwise B. counter-clockwise C. there is no induced current in the loop Checkpoint 3 . In the first picture (left) the circuit loop has the south Emfs of opposite signs are produced by motion in opposite directions, and the emfs are also reversed by A magnetic field is created by the two parallel currents flowing in opposite directions.

Curling your right-hand fingers around the loop in the clockwise direction makes your right thumb point into the page, which is the desired direction of the magnetic field. The increasing flux through the loop is due to the upward-pointing field of the magnet, so the induced magnetic field is downward. 4/7/2016 3 2013 Pearson Education, Inc. An induced current flows clockwise as the metal bar is pushed to the right. Because the pan has resistance, the current heats the pan. (a) Calculate the magnetic flux through the loop at t =0. Induced current: It is the current that is induced in a conducting loop which is exposed to a changing magnetic field is known as induced current. Inductance (L) is the property of a device or circuit that causes it to oppose a change in current due to energy stored in a magnetic field. Direction of the induced EMF A. I only B. II only C. I and III D. II and III E. south Q0+Q1 out of the page there is not enough information given to answer this question field is zero east 2.1 into An emf is induced in the coil when a bar magnet is pushed in and out of it. A current up in a field out of the page gives a force to the right: F x = ma = -ILB m dv/dt = -ILB (b) Calculate the induced emf in the loop. The direction of the induced EMF follows from Lenzs Law Lenzs Law The current that is induced in a coil (due to a magnetic flux change through the coil) will always be such that it opposes the Yes, up. Right-Hand Rule So the The induced downward field is like a magnet with its north pole on the bottom, which I'd be actually in the downward direction. (c) What is the induced current if the overall resistance of the loop is R? Science Physics Q&A Library I. Magnetic field does not require any medium to propagate; it can propagate even in a vacuum. 3. The induced emf must be in a specific direction. Find the magnitude and direction of the induced emf around the rectangular loop of sides a and b

ANSWER: Correct Part D Finally, the into the page. This requires a counter-clockwise current. Convenient method to determine Idirection Example if an external magnetic field on a loop Electromagnetic induction refers to the production of an electromotive force (emf) across an electrical conductor that experiences a changing magnetic field. 13. Direction of the induced magnetic field II. Same as saying:: 2. This results in an electric current flowing through the wire. out of Therefore, induced current will produce a magnetic flux which will weaken the original magnetic flux. 13.6 Electric Generators and Back Emf. downward. 1) clockwise 2) counterclockwise 3) no induced current If a coil is shrinking in a magnetic field pointing Again, self-induction opposes changes in current flow. What is the direction of induced magnetic field, not curl of it? The magnetic flux due to the external magnetic field through the enclosed area increases with time. -The cause can producing induced current in a coil due to relative motion between a magnet and the coil. The direction of original magnetic field is going into the plane of conducting loop. The induced electric field in the coil is constant in magnitude over the cylindrical surface, similar to how Amperes law problems with cylinders are solved. Does Loop area affect induced voltage? Use the right-hand rule to find the direction of the induced current that would generate a field opposing the change in flux. C c. D d. E 14. 10. a. Magnetic field lines are a visual tool used to represent magnetic fields. What is the formula for induced emf? An emf induced by motion relative to a magnetic field is called a motional emf. This is represented by the equation emf = LvB, where L is length of the object moving at speed v relative to the strength of the magnetic field B. How do you find self-induced emf? Self-inductance is the effect of the device inducing emf in itself. emf=LIt emf = L I t , where L is the self-inductance of the inductor, and I/t is the rate of change of current through it. The minus sign indicates that emf opposes the change in current, as required by Lenzs law.

NCERT Question 2 - The phenomenon of electromagnetic induction is. The loops diameter changes from 100 cm to 60 cm in 0.5 s What is the magnitude of the average induced emf? The induced downward field is like a magnet with its north pole on the bottom, which is repulsed by the bar magnet. constant velocity v through a magnetic field B. We follow the procedure below: 1. The magnetic field is strongest inside the What factors influence the direction and magnitude of the induced current?The number of turns of the coil. => As the number of turns increases, the magnitude of the induced current increases.The speed of the relative motion of the conductor and the magnetic field.the strength of the magnet. Calculate the induced emf. Yes, upward. Electromagnetic Induction: Induced EMF in a Moving Bar in a Magnetic Field; Lenzs Law How to find the direction of the induced current; How to find the direction of induced current in a loop 20cm/100 = 0.20m 0.20m/2 = 0.10m radius The magnetic field is strongest inside the coil. The magnetic field points Then, Our Thumb represents Direction of Motion of Conductor. What is the direction of the net magnetic field at point B?

Right c. Top of the page d. Bottom of the page 15. What is the EMF of the coil? (1) it increases (2) it decreases (3) it stays the same (4) it depends on the direction of the velocity (5) it depends on the direction of the magnetic field Magnetic field does no work, so K is constant a. Clockwise from above. The magnetic field varies with time according to B()tB=0 +bt, where a and b are constants. a. Clockwise from above. If the coil in the stove has low resistance it doesnt get hot but the pan does. b. consider arbitrary segments on opposite sides of the loop to qualitatively show by the vector results that the net magnetic field direction is along the central axis from the loop. An insulator wont heat up on an induction stove. Determine whether the magnetic flux that penetrates the coil is increasing or decreasing. Homework help starts here! The induced current must produce a magnetic field out of the page. What direction is the induced current in the circuit? What is the direction of the induced electric field in the loop? To simplify question, assume that there is a infinite straight wire with increasing line charge density t. Example: Induction Stove When the current is reversed, the direction of the magnetic field through the centre of the coil and around the wires is reversed. Is the magnetic field inside the loop increasing in strength decreasing in strength or steady? Lenz's law states that the current induced in the wire loop has the direction such that the magnetic flux created by the current opposes the change in the external magnetic flux that caused the current. decreasing, so the induced B field must try to reinforce it and therefore points in the same direction into the page. This is because the effects of both sides of the vertical part of the wires add up at the centre. At what point is the magnetic field the greatest in magnitude? the process of charging a body. Therefore, the induced current shall produce magnetic field toward the magnet or away from the plane of conducting loop to oppose the cause. Answered: I. the process of rotating a coil of an electric motor.

Clockwise Counterclockwise The direction of the magnetic force on the proton shown in the figure is to the right. a). Lenz's law states: "An induced electromotive force generates a current that induces a counter magnetic field that opposes the magnetic field generating the current. " The increasing flux through the loop is due to the upward-pointing field of the north pole of the magnet, so the induced magnetic field is downward. The direction of the induced current is determined by Lenzs law: The induced current produces magnetic fields which tend to oppose the change in magnetic flux that induces such currents. Practice Exam Questions. the direction of the conventional current induced in the loop as the magnet approaches the loop. This induced field is created by the current traveling in a CW direction. Reasoning Strategy 1. The magnetic field perpendicular to a circular loop of wire 20cm in diameter is changed from +0.52T to -0.45T in 180ms, where + means the field points away from an observer and - meaning towards the observer. On our Right Hand, We put our Thumb, Index finger and Middle Finger perpendicular to each other as shown below.

The density of the lines indicates the magnitude of the field. A. Clockwise B. Index Finger represents Direction of Magnetic Field. Hence, (B) is the correct answer. In that case, the forefinger represents the direction of the magnetic field, which is North to South, then the middle finger gives the direction of the induced current, which comes out be towards the right. What is the direction of the induced magnetic field within the coil in the figure below? Direction of the induced EMF A. I only B. II only C. I and III D. II and III E. that the induced magnetic field opposes the original flux change. A: LENZ' LAW: induced emf always opposes its cause flux=BAcos B is magnetic field A is area is angle Q: 5. Where does the magnetic field point on a wire with current? The current through the bar is up. To illustrate how Lenzs law works, lets consider a conducting loop placed in a magnetic field. Example: A uniform magnetic field B is perpendicular to the area bounded by the U shaped conductor and a movable metal rod of length l.

The direction of any magnetic induction effect is such as to oppose the cause of the effect. What is the direction of the induced Thus, this magnetic field will be opposed by the magnetic field that created it. - Alternative method for determining the direction of induced current or emf. Chapter 14. Thus, the induced current runs clockwise according to the right-hand rule. 13.7 Applications of Electromagnetic Induction. How is emf induced in a magnetic It is a field of force causing a force on material like iron when placed in the vicinity of the field. When the induced magnetic field is fully collapsed, the induced voltage and current flow cease. What is the direction of the induced current in the circular loop due to the current shown? Transcribed image text: The field lines shown represent the magnetic field induced by the constant current through a solenoid. We find Direction of Induced Current Using Fleming's Right Hand Rule. Magnitude of the induced EMF III. 13.5 Eddy Currents. And since the current is downward, the magnetic field will be around it so you can use the right hand, and then we can use the right train tunnel to find out that c Why does this make the bar slow down? Use this diagram for Questions 18 25.

The magnetic field is increasing at a constant rate through a wire loop, as shown in the figure. For uniform magnetic fields the magnetic flux is given by , where is the angle between the magnetic field and the normal to the surface of area . magnetic field at the bottom of a metal pan. the loop perpendicular to the direction of the field. The induced 18. An induced current has a direction such that the magnetic field due to the induced current opposes the change in the magnetic flux that induces the current. What is the direction of the current in this solenoid, as viewed from the top? Magnitude of the induced EMF III. An induced emf acts to oppose the change that produces it. upward. Thus, the current must flow in the clockwise direction around the circuit. When the current is reversed, the direction of the magnetic field through the centre of the coil and around the wires is reversed. The direction of an induced emf or current is such that the magnetic field created by the induced current opposes the change in magnetic flux that created the current. containg a magnetic field: Magnetic forces may be exerted on the charge carriers in the conductor: Creates an -> potential difference across the ends of the bar: 05 v What is the direction of the induced current in the loop?

23.4.Eddy Currents and Magnetic Damping Explain the magnitude and direction of an induced eddy current, and the effect this will have on the object it is induced in. To determine the direction of the induced current in the loop, use: 1. 2. The induced current must generate a field out of the page. What is the direction of the induced current on a wire loop being pulled through a uniform magnetic field? 13.4 Induced Electric Fields. Find the and determine the direction of the induced current in a circuit/loop. QuestionIdentify what is required We are required to useFaradays Law to calculate the induced emf.Write Faradays Law E = N t We know that the magnetic field is at an angle to the surface normal. Solve Problem Example if an external magnetic field on a loop is decreasing, the induced current creates a field parallel to the that tends to increase the net field. a). The changing magnetic field gives rise to a current in the bottom of the pan. magnetic field. Direction of the induced magnetic | bartleby. What happens to the kinetic energy of the particle? I. Thus, the magnetic field created by the induced current must be into the page. Two Cases: Figure 23-8 a. What is direction of magnetic field at point shown at timet-Q3/(202)? Suppose the thumb represents the direction of the conductors movement, which is upwards. As the current is increasing, B is increasing, so it must induce an electric field. Calculate emf, force, magnetic field, and work due to the motion of an object in a magnetic field.

to the left. We could use Lenzs law to determine that if there were a conducting loop in the solenoid, the Let's call the +x direction to the left, the direction the bar is moving. To find the direction of the induced emf, one can use Lenz's law: The induced current's magnetic field opposes the change in the magnetic flux that induced the current. Therefore, the direction of the induced electric field will be the same as that of the induced current, i.e. In modern language: "The induced current is such as to OPPOSE the CHANGE in The direction of is counterclockwise, and circulates in the same direction around the coil. Case (c) shows the reverse of case (b). perpendicular to a 0.20-T magnetic field is 0.050 m2. Describe several applications of magnetic damping. So it is downward and no, we know that we can use the right phantom rule. The direction of any magnetic induction effect is such as to oppose the cause of the effect. A charged particle enters a uniform magnetic field.