Monday, February 28, 2022

Electromagnetic Induction

Electromagnetic Induction ELECTROMAGNETIC INDUCTIONElectromagnetic Induction is defined as the production of emf in a conductor or a coil due to change in magnetic flux linked with the conductor or coil is called electromagnetic induction.Most of the electrical devices which use electric motors and transformers are based on this principle. Faraday's Laws of Electromagnetic Induction
Faraday's performed a series of experiment on electromagnetic induction and the conclusion were as follows:(i). If the magnetic flux linked with a coil changes, then emf is induced in it.ii) The induced emf lasts (exixts) only when there is change in magnetic flux.iii) The amount of induced emf in the coil is directly proportional to the rate of change on magnetic flux.Let, the magnetic flux linked with a coil changes from 𝜙1 to 𝜙2 and induced emf in it is 𝜖, then from Faraday's Law of electromagnetic induction inducedemfrateofchangeoffluxlinkage or,𝜖𝜙2-𝜙1tor,𝜖=-k𝜙2-𝜙1twhere, k is proportionality constant. In SI unit k =1. The negative sing denotes that the emf is induced in such a direction that it opposes the cause due to which it is produced. (Lenz's Law).or,𝜖=-𝜙2-𝜙1tIn differential form, 𝜖=-d𝜙dtIf there are N number of turns in a coil, then total emf produced is
𝜖 = - Nd𝜙
dt
Induced Electric FieldLet us consider a long , thin solenoid of crosssection area A, radius r and number of turns per unit area n as shown in figure.
When current I passes through the solenoid, magnetic field is produced that is B=𝜇0nI. We consider all the filed is inside the solenoid and field outside is neglected. let us consider a area vector A in the direction of magnetif field B.Then magnetic flux is written as 𝜙=BA=𝜇0nIAso, induced emf is𝜖=-d𝜙dt=ddt(𝜇0nIA)or, 𝜖=-𝜇0nAdIdtHere, a charge moves in the loop, which means there must be an electric field which causes the charge (electron) to move. We know that emf is workdone on moving a charge. The work done is given by line integral of electric field. so,E.dl=𝜖So that, E.dl=-d𝜙dtor, 2𝜋rE= -d𝜙dtor, E=12𝜋rd𝜙dtHere, E is the magnitude of induced electric field. Lenz's law:
According to Lenz's law, the direction of induced current in a coil is such that it always opposes the cause which produces it. This law follows the law of conservation of energy i.e. Energy neither can be created nor can be destroyed but can change from one form to another. In lenz's law when the magnet is moved towards or away from coil, emf is induced in the coil at the expense of mechanical energy spent by the external agent. Hence in this way mechanical energy is converted to electrical energy. This show the Lenz's law is in accordance with the law of conservation of energy.EMF induced in a straight conductor moving in a uniform magnetic field
Let us consider a straight conductor PQ of length l moving at right angle to a uniform magnetic field B with a velocity v as shown in the figure. Suppose the conductor moves throuth a small distance x in time t. then area swept out (covered) by the conductor =lx magnetic flux cut by the conductor , 𝜙=BAreaswept =Blx =BlxAccording to Faraday's law of electromagnetic induction, the magnitude of induced emf in the conductor is given by 𝜖=d𝜙dt=ddt(Blx) =Bldxdt
𝜖 = Blv
where , v is the velocity of the rod.IF the conductor moves at an angle 𝜃 with the magnetic field.𝜖=Bvlsin𝜃. Expression for induced e.m.f in a coil rotating in a magnetic field: Let us consider a rectangular coil having area A is placed in a uniform magnetic field B in a such a way that normal to the plane of the coil makes the angle 𝜙 with the magnetic field B as shown in figure
The component of field B at the right angle to the plane of the coil is Bcos𝜃. The flux through the coil is ABcos𝜃. If N be the no. of turns then the flux linkage 𝜙 is given by 𝜙=NABcos𝜃=NABcos𝜔t ..............................1If the coil turns, about an axis perpendicular to the field direction with the constant angular velocity 𝜔 then the induce emf in the coil is 𝜖=-d𝜙dt=-d(NABcos𝜃)dt=-d(NABcos𝜔t)dt𝜖=BAN𝜔sin𝜔t.2The value of 𝜖 is maximum when 𝜔t=900, so 𝜖0=BAN𝜔, where 𝜖0 is the maximum emf produced.so eqn (2) can be written as𝜖=𝜖0sin𝜔t...........................(3)Thus a coil rotating with a constant angular velocity in a uniform magnetic field produces a sinosoidally alternating emf.
If a resistor of resistance R is connected across the coil, the resulting coil will be also a sinosuidal.I=𝜖R=𝜖0sin𝜔tRor, I=I0sin𝜔twhere, I0=𝜖0R is the maximum current . AC GeneratorTheory and working of an ac generator: A.C. generator is an electronic mechanic which converts mechanical energy in to electrical energy. It work on the principle of electromagnetic induction i.e. when the coil is rotated in the uniform magnetic field then the emf is developed on the rotating coil. Construction of A.C. generator:
Armature: the rectangular coil (ABCD) consist large no. of turn which wounded the soft iron core is called armature. Strong magnetic field: the rectangular coil ABCD is rotated in the strong magnetic field produce due to magnet N and S. Slip ring: the rectangular coil ABCD are connected with two ring R1 and R2 seperatly. The ring R1and R2 rotated with the rectangular coil ABCD. Brush: the two carbon brush B1 and B2 are fixed and connected with load through which output obtained. WorkingWhen the rectangular coil is roated in the strong magnetic field then the magnetic line of force is cut and flux link changes then according to Faraday’s law of electromagnetic induction, emf is induced in the coil . The current flow out through the brush B1 in one direction while in B2 in other direction i.e. the direction of flow of current are in opposite to each half cycle. Similar process also occurs in another half cycle but in opposite direction as previous. This phenomenon is repeated continuously. Theory: Let the axis of the coil is perpendicular to the magnetic field and coil ABCD is rotated with constant angular velocity ‘ω’ as shown in figure.Let 𝜃 be the angle normal to the coil and magnetic field B at any instant 't' then we have 𝜃=𝜔t.(1)the component of magnetic field to the plane of the coil is Bcos𝜃 then from equation (1) we have Bcos𝜔t let A be the area of the coil then the magnetic flux 𝜙=BAcos𝜔tsince the rectangular coil consisting large no. of turn say N then the magnetic flux due to N no. of coil is 𝜙=BNAcos𝜔t.(2)We know, From Faraday law of electromagnetic Induction E=-d𝜙dt=-d(BANcos𝜔t)dt=-BNA(-𝜔)sin𝜔tor,E=BAN𝜔sin𝜔t..................... .(3) Let E0=BAN𝜔Then from equation (3) we haveE=E0sin𝜔t..(4)Dividing the eq. (4) by R we get I=I0sin𝜔t. ..............(5)The equation ( 4) shows that the induced emf E is a sinosuidal wave .
Eddy Current The induced circulating currents produced in a metal itself due to change in magnetic flux linked with the metal are called eddy currents.When a metallic piece is placed in a changing magnetic field, the induced currents are set-up in the metal piece which is eddy currents. The direction of eddy currents is given by Lenz's law.Drawbacks of Eddy Currents1. The production of eddy currents in a metallic block leads to the loss of electrical energy in the form of heat.2. The heat produced due to eddy currents break the insulation used in the electrical machine.3. Eddy currents may cause unwanted dampening effect.Application of Eddy Current1. Induction cooker/Furnace
It is based on the heating effect of eddy currents. The metallic block to be melt is placed in a high frequency changing magnetic field. Strong eddy current is produced in a block. A large amount of heat is produced in the block due to high resistance of the metal. The metallic block melts due to heat. So the induction furnace is used to separate metals from their ores and to make some alloys.Nowadays this tecchnology is being used in induction cooker for domastic use.2. DiathermyEddy currents are used for the localized heating of tissues in the human body which is called diathermy.3. SpeedometerSpeedometer is a device used to measure the instantaneous speed of vehicle. A small magnet is attached to the axle of wheel of the speedometer. Due to the rotation of the magnet magnetic flux linked with the aluminium drum changes and hence eddy currents are produced in it. Higher the eddy current, more deflection is seen the in scale of meter.4. Eddy current damping or dead beat galvanometer As the coil of galvanometer swings in the magnetic field of the instrument, eddy currents are induced in the frame. These eddy currents oppose the motion of the coil and hence the pointer attached to it. The pointer quickly attains the final position without overshooting or oscillating violently. Thus eddy currents reduce the oscillations of the pointer.5. Electromagnetic brakesEddy current breaking can be used to control the speed of electric trains. In order to reduce the speed of train, an electromagnet is turned on that applies its field to the wheels. Large eddy currents are set up which produce the retarding effect.6. Energy metersEnergy meters uses the concept of eddy current to record the consumption of electricity. Self and mutual inductances
When a change current (a.c) passing through a coil then the magnetic flux ɸ linked changes. The changes in the magnetic flux linked causes to induce emf in the coil itself. Therefore the phenomenon by which emf is induction in a coil by passing changing current through itself is called self induction.From faraday's second law of electromagnetic induction, the self inducted emf (𝜖) is proportional to the rate of change of flux 𝜙 linked with the coil i.e. 𝜖 𝛼d𝜙dt(1)d𝜙dt is also propotional to the dIdt i.e. d𝜙dt𝛼dIdt..(2)from equation (1) and (2) we have 𝜖 𝛼 dIdt or, 𝜖=-LdIdt where L is proportionality constant called coefficient of self induction. Or, L=-edIdtif, -dIdt=1 L=𝜖Hence, Inductance (L) is also define as the emf induced for unit rate of decrease of current through itself.Mutual Induction
The induction of an emf in the coil due to the flow of current in the neighboring coil is called mutual induction. If S1 and S2 are the two coils place near to each other, the changing current I1 is set up in the coil S1,then the magnetic field around it also changes due to which flux linked with S2 is also changing if 𝜙2 is the flux linked with S2 then, then, the magnetic flux inside the solenoid S1is given by B1=𝜇0n1I1 =𝜇0N1lI1 where, n1=N1l As, B=𝜙Athe magnetic flux linked with each turns of solenoid S1is =B1Aand the total flux solenoid S2 is =N2B1Aie. 𝜙2=N2𝜇0N1lI1Aor, 𝜙2=𝜇0N1N2AlI1or, 𝜙2=M12I1Where, M12=𝜇0N1N2lA is the mutual inductance, when current fluctates in solenoid S1 and emf is induced in solenoid S2. Simillarly, when current fluctated in solenoid S2thenM21=𝜇0N1N2lA so, M12=M21=Mso, M=𝜇0N1N2lA Energy Stored in a InductorConsider an inductor of inductance L having initially zero current. It is assumed that an inductor has zero resistance so that there is no dissipation of energy with in inductor. Let I be the current at any instant of time so that dI/dt is the rate of change of current. Here current is increasing. The voltage between the terminals a and b of the inductor at this instant is Vab=LdIdt and the rate P at which energy is being delivered to the inductor is given byP=vabI=LdIdtI=LIdIdtThe energy supplied to the inductor in small amount of time is small which is written asdU=Pdt(P=dUdt)=LIdIdtdtdU=LIdITo obtain total amount of energy stored in the inductor, we have to integrate it from 0 to I. Total energy stored in an inductor,  i.e U=0IL.I.dI or, U=L[I22]0I=12LI2  U=12LI2 Construction and working of a transformer: Transformers is a device used to convert high volt, low current AC into low volt high current AC or vice versa.
The transformer which converts high voltage AC into low voltage is called step down transformers. The transformers which converts low voltage AC into high voltage is called step up transformers. Transformer is based on the principle of mutual induction. When a magnetic flux is linked with a coil changes emf is induced in the nearby coil. It consists of two coild, primary and secondary of insulated copper wire on the laminated soft iron core. The soft iron core consists of thin strips of iron coated with vanish to insulated from each other and put together to form a single. The primary coil is connected with the source of AC and the secondary is connected with the load. When the current is passed through the primary coil, magnetic flux linked with the coil changes and emf is induced in the coil.If 𝜙 is the flux linked with the primary coil and Ep is itself induction then the primary voltage. Ep is given by:Ep=-NPd𝜙dt (i) Where, Np is the number of turns in the primary coil. If there is no loss of flux then the rate of flux linked with the secondary coil will be same.Then the induced emf is secondary coil,Or, ES=NSd𝜙dt (ii)Where, NS is the number of turns in secondary coil. Dividing equation (i) and (ii), we get,Or, EPEs=NpNs = kWhere, NpNs= k, is called transformer ratioIf NP/NS>1 then EP>ES and the transformer is step down.If NP/NS then ES>EP and the transformers in step up.If Lp and Ls is the coefficient of self - induction of primary and secondary coil respectively.For an ideal transformer, there is no any power loss.ie. Input power = Output power.Then, IpEp=ISES Or, EpEs=IsIp.Hence, the output voltage is increased, the output current will decrease and vice - versa. Therefore, for a long distance transmission line, high voltage is used. If the secondary voltage is high then current will be below and hence the energy loss (I2Rt) due to resistance of wire is low. Cause of Energy loss in Practical Transformer1. Copper LossesEnergy lost in windings of the transformer is known as copper loss. When current flows through copper wires, there is loss in power. This can be reduced by using thick wires for windings.2. Flux lossesIn the actual transformer, the coupling between primary and secondary coil is not perfect. So certain amount of electrical energy supplied to the primary coil is wasted.3. Iron losses a)Eddy current losses:When a changing magnetic flux links with the iron core of the transformer, eddy currents are set-up. These eddy currents in the iron core produce heat which leads to wastage of energy. This can be reduced by using laminated core.b. Hysteresis lossesWhen alternating current passes through the primary coil of the transformer, the iron core of the transformer is magnetized and demagnetized over a complete cycle. Some energy is lost during magnetizing and demagnetizing the iron core. The energy loss in a complete cycle is equal to the area of the hysteresis loop. This can be minimized by using the suitable material having narrow hysteresis loop for the core of a transformer.4. Losses due to vibration of core A transformer produces humming noise due to magnetostriction effect. Some electrical energy is lost in the form of mechanical energy to produce vibration in the core.

Some New Questions

In a coil of resistance 10Ω the induced current developed by changing magnetic flux through it, is shown in the figure as a function of time. The magnitude of change in flux through the coil in Weber is:

A. 2

B. 4

C. 6

D. 8

[Hint: use E= d𝜙/dt and V =IR]

Model Question Nepali XII

 






Model Question Social XII

Model Question English XII

RS9923_Grade 12 Compulsory Subjects_Test Specification Chart and Model Questions_Final.pdf

3. Compulsory English (ENG. 004)

Compulsory English (ENG. 004)

Grade XII Model Questions

Full Marks: 75 Time: 3 hours

  1. Read the text and complete the tasks that follow. 15

    How to stay fit, happy and healthy

    If you’ve been listening to the news you already know about our national obesity levels rising by the day. It has never been more important to watch what you are eating and to get an adequate amount of exercise and sleep to keep yourself fit and healthy. Though it may feel like really hard work at first, once you adopt an exercise routine and start to adapt to a new situation, you’ll forget you ever did things differently. Here are the top four top adjustments you could make make:


    Sleep is huge and almost a third of the US population doesn’t get near enough to help them stay physically and mentally healthy. If you are sleep deprived, try changing your habits in order to get a full eight hours every night.


    Look at what you’re eating now and make changes where you see fit. If you are susceptible to snacking, keep a piece of fruit or a few nuts at hand. The key is to eat small meals throughout the day. Reduce portion sizes, remove white bread and replace with whole grains and make sure each meal contains at least one portion of fruit and – or vegetables. Healthy food doesn’t have to be expensive in the least bit, and you can get an abundance of low priced fruit and veggies, like apples, bananas, potatoes and peas.


    Take a look at your current lifestyle and make a small list of everything you do that is not good for your health. This could be anything, from eating too much junk food or drinking too much caffeine, to smoking or drinking. Start the process of breaking these habits one by one. Some will be easy, while others may take months or maybe years to get rid of and eradicate completely from your life, but the sooner you start fighting, the better.


    Some addictions (like smoking, drugs or alcohol) are incredibly bad not only to your health, but also to your pocketbook. If you smoke and/or drink, start by cutting back on how many drinks you have, or cigarettes you smoke, in a day, and if necessary, seek medical advice and assistance to make further steps towards stopping completely.


    We all should be doing at least 30 minutes of exercise, 3 to 4 or more times a week, to maintain good health and keep fit. This can be pretty much anything that is physical, like walking, cycling, running, swimming to weightlifting, etc. This too does not have to be expensive, and you can get a great work out without joining any costly gyms. Most of these exercises are inexpensive, and just doing a cardiovascular exercise, like walking, jogging, or walking on a treadmill a few times a week will do your body (and heart) good.

    1. Look at the highlighted words in the text. Complete these sentences using them. Two of them are not necessary. (5X1=5)

      1. Disadvantaged people are of social justice.

      2. Nepal is a naturally rich country. In fact, it has an of natural resources.

      3. Older people with medical complications are to Covid-19.

      4. I have made a few to the design to give the shirt a new look.

      5. It took me seven hours to complete the task. It was difficult.

    2. Choose the appropriate headings for paragraphs 2-6 from the list below and write the paragraph numbers next to them. (5X1=5)

      1. Strive for a better diet …………….

      2. Exercise, exercise, exercise …………….

      3. Overcoming addictions …………….

      4. Get more sleep …………….

      5. Stop all those bad habits …………….

    3. Answer the following questions. (5X1=5)

      1. What percentage of the US population get enough sleep to stay healthy?

      2. Why is healthy food not always expensive?

      3. What is the best way to get rid of bad habits?

      4. Why do you think an addiction like smoking is worse than snacking on junk food?

      5. What type of exercise is good for your heart?

  2. Write short answers to the following questions. (5X2=10)

    1. Why were the people in the neighbourhood surprised at the role of the young man and his wife within their family? (Neighbours)

    2. How does the author make fun using the words 'America' and 'the USA? (A Devoted Son)

    3. Explain the following lines with reference to the context: (The Awakening Age) Along the line may our lives rhyme

      To make a loving harvest of space and time.

    4. What is the central idea of the essay Knowledge and Wisdom by Bertrand Russell?

    5. How can you say that history has been a major contested issue in this present world? (Humility)

  3. Write long answers to the following questions. (2X5=10)

    1. Sketch the character of Famous Actress. How is she different from Earnest Young Woman? (A Matter of Husbands)

    2. Write a short summary of the poem A Day by Emily Dickinson.

  4. What is the most useful thing that you have ever learnt? Write two or three of paragraphs about it. 7

  5. You have received this email from your friend Nitesh.

    From: Nitesh

    Subject: Holiday

    Some school friends of mine are visiting your village soon for a week's touring holiday. They would like to travel around about your local area and understand its history.

    Can you tell me about some of the places they could visit please? What's the best way to travel around – bus, car, bike or on foot?

    Thanks, Nitesh


    Write a reply email to Nitesh. 8

  6. Many students in Nepal tend to choose to study abroad. To what extent does this trend benefit the students and the country? What are the drawbacks? Write an essay to explain your thoughts in about 300 words. 10

  7. Do as indicated in the brackets and rewrite the sentences. (10X1=10)

    1. I’m going to tell you something very important, so please listen …………... .

      (Complete the sentence with an appropriate adverb.)

    2. The old man died a heart attack. (Put the correct preposition in the blank.)

    3. More than one person going to have to find a new job. (Put the correct

      verb in the blank.)

    4. You'll (has to/have to/must/had to) tell the police that your house was

      broken into. (Choose the correct option from the bracket to complete the sentence.)

    5. He only realised he his keys when he reached his front door. (Complete the

      sentence using correct forms of verbs: lose)

    6. A lot of people are worried about (to lose/losing) their jobs. (Choose the

    correct option from the bracket to complete the sentence.)

    g the AC was on, the room was not cool. (Put a correct conjunction in the

    blank to complete the sentence.)

    1. Between 2000 and 2005 she wrote three novels, (neither of which/none

      which/none of which) were published. (Choose the correct option from the bracket to complete the sentence.)

    2. I like people laughing at me. (Change into passive.)

    3. Could you please open the window? (Report this with the reporting clause: She

    requested )

  8. Choose and copy the correct answer. (5X1=5)

  1. Which of the following words has a different initial sound?

    1. check ii. chess

      iii. chemical iv. chairman

  2. The last sound in the word 'push' is transcribed as

    1. /ʃ/ ii. /z/

      iii. /s/ iv. /tʃ/

  3. I can't the pain.

    1. bare ii. bear

      iii. beer iv. bore

  4. Which word would you find in a dictionary that comes between the guide words: kiwi …

    knit?

    1. king ii. kitty

      iii. knob iv. knife

  5. The babysitter the girl while her parents were not at home.

    1. looked after ii. looked at

iii. looked over iv. looked up


)

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