... (1) A battery of emf ε and negligible internal resistance is connected in series to two resistors. The current in the circuit is I.
|
|
- Roxanne Jordan
- 5 years ago
- Views:
Transcription
1 1. This question is about electric circuits. (a) Define (i) electromotive force (emf ) of a battery. (ii) electrical resistance of a conductor. (b) A battery of emf ε and negligible internal resistance is connected in series to two resistors. The current in the circuit is I. (i) State an equation giving the total power delivered by the battery. IB Questionbank Physics 1
2 (ii) The potential difference across resistor R 1 is V 1 and that across resistor R 2 is V 2. Using the law of the conservation of energy, deduce the equation below. ε = V 1 + V 2 IB Questionbank Physics 2
3 (c) The graph shows the I-V characteristics of two conductors, X and Y. On the axes below, sketch graphs to show the variation with potential difference V of the resistance of conductor X (label this graph X) and conductor Y (label this graph Y). You do not need to put any numbers on the vertical axis. (3) IB Questionbank Physics 3
4 (d) The conductors in (c) are connected in series to a battery of emf ε and negligible internal resistance. The power dissipated in each of the two resistors is the same. Using the graph given in (c), (i) determine the emf of the battery. (ii) calculate the total power dissipated in the circuit. (Total 12 marks) IB Questionbank Physics 4
5 2. This question is about electrical resistance. (a) A resistor of resistance 1.5 Ω is made from copper wire of radius 0.18 mm. The resistivity of copper is Ω m. Determine the length of copper wire used to make the resistor. (b) The manufacturer of the resistor in (a) guarantees that the resistance is within 10 % of 1.5 Ω, provided that the power dissipation in the resistor does not exceed 1.0 W. (i) Suggest why the resistance of the resistor might be greater than 1.65 Ω if the power dissipation in the resistor is greater than 1.0 W. (ii) Show that, for a power dissipation of 1.0 W, the current in a resistor of resistance 1.5 Ω is 0.82 A. IB Questionbank Physics 5
6 (iii) The 1.5 Ω resistor is connected in series with a variable resistor and battery of emf 6.0 V and internal resistance 1.8 Ω. Estimate the resistance R of the variable resistor that will limit the current to 0.82 A. (3) (Total 8 marks) 3. This question is about electric circuits. The components shown below are to be connected in a circuit to investigate how the current I in a tungsten filament lamp varies with the potential difference V across it. IB Questionbank Physics 6
7 (a) Construct a circuit diagram to show how these components should be connected together in order to obtain as large a range as possible for values of potential difference across the lamp. (4) (b) On the axes, sketch a graph of I against V for a filament lamp in the range V = 0 to its normal working voltage. IB Questionbank Physics 7
8 (c) The lamp is marked with the symbols 1.25 V, 300 mw. Calculate the current in the filament when it is working normally. (d) The resistivity of tungsten at the lamp s working temperature is Ωm. The total length of the tungsten filament is 0.80 m. Estimate the radius of the filament. (4) (e) The cell is connected to two identical lamps connected in parallel. The lamps are rated at 1.25 V, 300 mw. The cell has an emf of 1.5 V and an internal resistance of 1.2 Ω. Determine whether the lamps will light normally. (4) (Total 15 marks) 4. This question is about electric fields and electrical resistance. (a) State, in terms of electrons, the difference between a conductor and an insulator. IB Questionbank Physics 8
9 (b) Suggest why there must be an electric field inside a current-carrying conductor. (3) (c) The magnitude of the electric field strength inside a conductor is 55 N C 1. Calculate the force on a free electron in the conductor. (d) Define resistance. (e) A resistor made from a metal oxide has a resistance of 1.5 Ω. The resistor is in the form of a cylinder of length m and radius m. Calculate the resistivity of the metal oxide. IB Questionbank Physics 9
10 (f) The manufacturer of the resistor in (e) guarantees its resistance to be within ±10 % of 1.5 Ω provided the power dissipation in the resistor does not exceed 1.0 W. Calculate the maximum current in the resistor for the power dissipation to be equal to 1.0 W. (g) Three of the resistors in (f) are connected in the circuit below. The cell has an emf of 2.0 V and negligible internal resistance. (i) Define emf. IB Questionbank Physics 10
11 (ii) Determine the minimum and the maximum power that could be dissipated in this circuit. (3) (Total 14 marks) 5. (a) Draw the complete diagram of the circuit that uses a potential divider, ammeter, voltmeter and cell to measure the current-voltage characteristics for component X. (3) IB Questionbank Physics 11
12 (b) The graph shows the current-voltage characteristics for the component X. Component X is now connected across the terminals of a cell of emf 2.0 V and negligible internal resistance. Use the graph to show that the resistance of X is 0.83 Ω. (c) A resistor of constant resistance 1.0 Ω is connected in series with the cell in (b) and with X. Use the graph to deduce that the current in the circuit is 1.3 A. (3) (Total 8 marks) IB Questionbank Physics 12
13 6. This question is about electrical resistance. (a) A heating coil is to be made of wire of diameter m. The heater is to dissipate 980 W when connected to a 230 V d.c. supply. The material of the wire has resistivity Ω m at the working temperature of the heater. (i) Define electrical resistance. (ii) Calculate the resistance of the heating coil at its normal working temperature. (iii) Show that the length of wire needed to make the heating coil is approximately 4 m. IB Questionbank Physics 13
14 (b) Three identical electrical heaters each provide power P when connected separately to a supply S which has zero internal resistance. On the diagram below, complete the circuit by drawing two switches so that the power provided by the heaters may be either P or 2P or 3P. (Total 7 marks) IB Questionbank Physics 14
15 7. This question is about an electric circuit. A particular filament lamp is rated at 12 V, 6.0 ma. It just lights when the potential difference across the filament is 6.0 V. A student sets up an electric circuit to measure the I-V characteristic of the filament lamp. In the circuit, shown below, the student has connected the voltmeter and the ammeter into the circuit incorrectly. The battery has emf 12 V and negligible internal resistance. The ammeter has negligible resistance and the resistance of the voltmeter is 100 k. The maximum resistance of the variable resistor is 15. (a) Explain, without doing any calculations, whether there is a position of the slide S at which the lamp will be lit (3) (b) Estimate the maximum reading of the ammeter IB Questionbank Physics 15
16 (c) Complete the circuit diagram below showing the correct position of the voltmeter and of the ammeter in order to determine the I-V characteristic of the filament lamp. (Total 7 marks) IB Questionbank Physics 16
1. A battery of internal resistance 2 Ω is connected to an external resistance of 10 Ω. The current is 0.5 A. D. 24.
1. A battery of internal resistance 2 Ω is connected to an external resistance of 10 Ω. The current is 0.5 A. What is the emf of the battery? A. 1.0 V B. 5.0 V C. 6.0 V D. 24.0 V (Total 1 mark) IB Questionbank
More informationState an equation giving the total power delivered by the battery.
Electricity Paper2 (set 1) 1. This question is about electric circuits. (a) Define (i) electromotive force (emf ) of a battery. (1) (ii) electrical resistance of a conductor. (1) (b) A battery of emf ε
More informationD V (Total 1 mark)
1. One electronvolt is equal to A. 1.6 10 19 C. B. 1.6 10 19 J. C. 1.6 10 19 V. D. 1.6 10 19 W. 2. A battery of internal resistance 2 Ω is connected to an external resistance of 10 Ω. The current is 0.5
More informationD W. (Total 1 mark)
1. One electronvolt is equal to A. 1.6 10 19 C. B. 1.6 10 19 J. C. 1.6 10 19 V. D. 1.6 10 19 W. 2. A battery of internal resistance 2 Ω is connected to an external resistance of 10 Ω. The current is 0.5
More information1. A battery of internal resistance 2 Ω is connected to an external resistance of 10 Ω. The current is 0.5 A.
. A battery of internal resistance 2 Ω is connected to an external resistance of 0 Ω. The current is 0.5 What is the emf of the battery?.0 V B. 5.0 V C. 6.0 V D. 24.0 V 2. Two electrodes, separated by
More informationCHAPTER 5 Test B Lsn 5-6 to 5-8 TEST REVIEW
IB PHYSICS Name: Period: Date: DEVIL PHYSICS BADDEST CLASS ON CAMPUS CHAPTER 5 Test B Lsn 5-6 to 5-8 TEST REVIEW 1. This question is about electric circuits. (a) (b) Define (i) (ii) electromotive force
More informationName: Period: Date: 2. In the circuit below, n charge carriers pass the point P in a time t. Each charge carrier has charge q.
Name: Period: Date: IB-1 Practice Electrical Currents, Resistance, and Circuits Multiple Choice Questions 1. In the circuit below, which meter is not correctly connected? A 1 3 A 2 4 A. 1 B. 2 C. 3 D.
More informationElectric Currents 2 D V. (1)
Name: Date: Electric Currents 2. A battery is connected in series with a resistor R. The battery transfers 2 000 C of charge completely round the circuit. During this process, 2 500 J of energy is dissipated
More informationPhysicsAndMathsTutor.com 1
PhysicsAndMathsTutor.com 1 1. The figure below shows a circuit containing a battery of e.m.f. 12 V, two resistors, a light-dependent resistor (LDR), an ammeter and a switch S. The battery has negligible
More informationPhysicsAndMathsTutor.com 1
Q1. (a) A metal wire of length 1.4 m has a uniform cross-sectional area = 7.8 10 7 m 2. Calculate the resistance, R, of the wire. resistivity of the metal = 1.7 10 8 Ωm............ (b) The wire is now
More informationE 1 Ι 1 R 1 R 2 Ι 3 R 3 E 2 Ι 2
1 (a) A student has been asked to make an electric heater. The heater is to be rated as 12 V 60 W, and is to be constructed of wire of diameter 0.54 mm. The material of the wire has resistivity 4.9 x 10
More informationPhysicsAndMathsTutor.com 1
PhysicsAndMathsTutor.com 1 1. The figure below shows a circuit containing a battery of e.m.f. 12 V, two resistors, a light-dependent resistor (LDR), an ammeter and a switch S. The battery has negligible
More information8.0 Ω 12.0 Ω. When the switch S is open, show that the potential difference between the points X and Y is 7.2 V.
1. The figure below shows a circuit containing a battery of e.m.f. 12 V, two resistors, a light-dependent resistor (LDR), an ammeter and a switch S. The battery has negligible internal resistance. 8.0
More informationCHAPTER 3: ELECTRIC CURRENT AND DIRECT CURRENT CIRCUIT
CHAPTER 3: ELECTRIC CURRENT AND DIRECT CURRENT CIRCUIT PSPM II 2005/2006 NO. 3 3. (a) Write Kirchhoff s law for the conservation of energy. FIGURE 2 (b) A circuit of two batteries and two resistors is
More informationFigure 1. (b) (i) State what happens to the resistance of the filament lamp as the current increases.
Q1.(a) Sketch, on Figure 1, the current voltage (IV) characteristic for a filament lamp for currents up to its working power. Figure 1 (b) (i) State what happens to the resistance of the filament lamp
More informationDraw, in the space below, a circuit diagram of this circuit. Use the correct symbols for each part of the circuit.
Q1. The drawing shows the circuit used to investigate how the current through a 5 ohm (Ω) resistor changes as the potential difference (voltage) across the resistor changes. (a) Draw, in the space below,
More information1 A 60-W light bulb operating on a 120-volt household circuit has a resistance closest to
Slide 1 / 31 1 A 60-W light bulb operating on a 120-volt household circuit has a resistance closest to A 60 Ω B 120 Ω C 240 Ω D 180 Ω E 360 Ω Slide 2 / 31 2 Which of the following is equivalent to the
More informationA piece of wire of resistance R is cut into five equal parts. These parts are then connected in
Page 221»Exercise» Question 1: A piece of wire of resistance R is cut into five equal parts. These parts are then connected in parallel. If the equivalent resistance of this combination is R', then the
More informationA2 WAVES. Waves. 1 The diagram represents a segment of a string along which a transverse wave is travelling.
A2 WAVES Waves 1 The diagram represents a segment of a string along which a transverse wave is travelling. (i) What is the amplitude of the wave? [1] (ii) What is the wavelength of the wave? [1] (iii)
More informationCalculate the maximum amount of energy this battery can deliver.
1 A battery in a laptop computer has an electromotive force (emf) of 14.8 V and can store a maximum charge of 15. 5 10 3 C. The battery has negligible internal resistance. Calculate the maximum amount
More informationRegents Physics Mr. Mellon Based on Chapter 22 and 23
Name Regents Physics Mr. Mellon Based on Chapter 22 and 23 Essential Questions What is current? How is it measured? What are the relationships for Ohm s Law? What device measures current and how is it
More informationElectric Circuits Review
Electric Circuits Review 3.1 Electric Circuits Be able to: o define current o solve problems for current, charge, and time o relate conventional current direction to the electron flow in a conductor o
More informationis connected in parallel to the input of an electronic circuit that switches the mains supply to the heating element in the oven on or off.
1 This question is about the use of a thermistor fitted inside a domestic oven as a temperature sensor in a potential divider circuit. Fig. 2.1 shows the potential divider circuit in which the component
More informationthe total number of electrons passing through the lamp.
1 (a) A 12 V 36 W lamp is lit to normal brightness using a 12 V car battery of negligible internal resistance. The lamp is switched on for one hour (3600 s). For the time of 1 hour, calculate the energy
More informationAP Physics Electricity and Magnetism #7 Inductance
Name Period AP Physics Electricity and Magnetism #7 Inductance Dr. Campbell 1. Do problems Exercise B page 589 and problem 2, 3, 8, 9 page 610-1. Answers at the end of the packet. 2. A 20-turn wire coil
More informationResistance and Ohm s law
Resistance and Ohm s law Objectives Characterize materials as conductors or insulators based on their electrical properties. State and apply Ohm s law to calculate current, voltage or resistance in an
More informationElectricity. Mark Scheme. Save My Exams! The Home of Revision For more awesome GCSE and A level resources, visit us at
Electricity Mark Scheme Level Subject Exam Board Topic Booklet Pre U Physics Cambridge International Examinations Electricity Mark Scheme Time llowed: 56 minutes Score: /46 Percentage: /100 Grade Boundaries:
More informationElectricity Transition Questions Applied General in Science
Electricity Transition Questions Applied General in Science Marks: 62 marks Pass = 30% Comments: Merit = 45% Distinction = 65% Name: Teacher: MDS Date: Q1. (a) Draw one line from each circuit symbol to
More informationElectric Current & DC Circuits
Electric Current & DC Circuits PSI AP Physics B Name Multiple-Choice 1. The length of an aluminum wire is quadrupled and the radius is doubled. By which factor does the resistance change? (A) 2 (B) 4 (C)
More informationOHM S LAW. Ohm s Law The relationship between potential difference (V) across a resistor of resistance (R) and the current (I) passing through it is
OHM S LAW Objectives: a. To find the unknown resistance of an ohmic resistor b. To investigate the series and parallel combination of resistors c. To investigate the non-ohmic resistors Apparatus Required:
More informationDownloaded from
Question 1: What does an electric circuit mean? An electric circuit consists of electric devices, switching devices, source of electricity, etc. that are connected by conducting wires. Question 2: Define
More information1. A sinusoidal ac power supply has rms voltage V and supplies rms current I. What is the maximum instantaneous power delivered?
1. A sinusoidal ac power supply has rms voltage V and supplies rms current I. What is the maximum instantaneous power delivered? A. VI B. VI C. VI D. VI. An alternating current supply of negligible internal
More informationSection A. Two resistors of 10 Ω and 15 Ω are connected in series to a battery of 6V. How can the values of current passing through them be compared?
EXAM PRACTICE Past Year Board Questions CBSE-Class X Physics Electricity Section A (1 mark each) Question 1. Question 2. Question 3. Question 4. Question 5. Question 6. How is an ammeter connected in a
More informationChapter 21 Electric Current and Direct-Current Circuit
Chapter 21 Electric Current and Direct-Current Circuit Outline 21-1 Electric Current 21-2 Resistance and Ohm s Law 21-3 Energy and Power in Electric Circuit 21-4 Resistance in Series and Parallel 21-5
More informationFig The potential difference across each strip is 12 V when a current of 2.0 A passes through it. of one strip of the heater.
1 This question is about possible heating circuits used to demist the rear window of a car. The heater is made of 8 thin strips of a metal conductor fused onto the glass surface. Fig. 2.1 shows the 8 strips
More informationQ2. Figure 1 shows the oscilloscope trace an alternating current (a.c.) electricity supply produces.
SERIES AND PARALEL CIRCUITS Q1. A student set up the electrical circuit shown in the figure below. (a) The ammeter displays a reading of 0.10 A. Calculate the potential difference across the 45 Ω resistor.
More informationSF026: PAST YEAR UPS QUESTIONS
CHAPTER 3: ELECTRIC CURRENT AND DIRECT-CURRENT CIRCUITS UPS SEMESTER 2 2011/2012 1. (a) (i) What is meant by electrical resistivity? (ii) Calculate the resistance of an iron wire of uniform diameter 0.8
More informationFig [5]
1 (a) Fig. 4.1 shows the I-V characteristic of a light-emitting diode (LED). 40 I / 10 3 A 30 20 10 0 1.0 1.5 2.0 V / V Fig. 4.1 (i) In Describe the significant features of the graph in terms of current,
More information(a) (i) Is the transformer in the diagram being used as a step-up transformer or as a step-down transformer? ) in the box next to your answer. ...
Q1.The diagram shows a transformer. (a) (i) Is the transformer in the diagram being used as a step-up transformer or as a step-down transformer? Put a tick ( ) in the box next to your answer. a step-up
More informationPhysicsAndMathsTutor.com 1
PhysicsAndMathsTutor.com 1 1. A 12 V 36 W lamp is lit to normal brightness using a 12 V car battery of negligible internal resistance. The lamp is switched on for one hour (3600 s). For the time of 1 hour,
More informationELECTRIC CIRCUIT PROBLEMS 12 AUGUST 2014
ELECTRIC CIRCUIT PROBLEMS 12 AUGUST 2014 In this lesson we: Lesson Description Discuss the application of Ohm s Law Explain the series and parallel connection of resistors Discuss the effect of internal
More informationResistance and Ohm s Law R V I. 1 ohm = 1 volt ampere
Resistance and Ohm s Law If you maintain an electric potential difference, or voltage V, across any conductor, an electric current occurs. In general, the magnitude of the current depends on the potential
More informationElectric Circuits. Alternate Units. V volt (V) 1 V = 1 J/C V = E P /q V = W/q. Current I ampere (A) 1 A = 1 C/s V = IR I = Δq/Δt
Electric Circuits Quantity Symbol Units Charge Q,q coulomb (C) Alternate Units Formula Electric Potential V volt (V) 1 V = 1 J/C V = E P /q V = W/q Work, energy W, E P joule (J) W = qv E P = qv Current
More informationA Level. A Level Physics. ELECTRICAL CIRCUITS: Electrical Quantities (Answers) Edexcel. Name: Total Marks: /30
Visit http://www.mathsmadeeasy.co.uk/ for more fantastic resources. Edexcel A Level A Level Physics ELECTRICAL CIRCUITS: Electrical Quantities (Answers) Name: Total Marks: /30 Maths Made Easy Complete
More information(a) In the circuit below, lamps P and Q are identical. The reading on the ammeter is 3A. The cell shown is of emf. 6V. A P [2] ...
High Demand Questions QUESTIONSHEET 1 (a) In the circuit below, lamps P and Q are identical. The reading on the ammeter is 3A. The cell shown is of emf. 6V. A P Q Calculate the current that passes through
More informationThe equation which links current, potential difference and resistance is:
Q1.An electrical circuit is shown in the figure below. (a) The current in the circuit is direct current. What is meant by direct current? Tick one box. Current that continuously changes direction. Current
More informationPH213 Chapter 26 solutions
PH213 Chapter 26 solutions 26.6. IDENTIFY: The potential drop is the same across the resistors in parallel, and the current into the parallel combination is the same as the current through the 45.0-Ω resistor.
More informationELECTRIC CIRCUITS PREVIEW QUICK REFERENCE. Important Terms
ELECTRC CRCUTS PREEW Conventional current is the flow of positive charges though a closed circuit. The current through a resistance and the voltage which produces it are related by Ohm s law. Power is
More information12.2 ALTERNATING CURRENT 12.3 TRANSMISSION OF ELECTRICAL POWER HW/Study Packet
12.2 ALTERNATING CURRENT 12.3 TRANSMISSION OF ELECTRICAL POWER HW/Study Packet Required: READ Tsokos, pp 360-365 Hamper pp 209-219 HL Supplemental: Cutnell and Johnson, pp 696-707 Giancoli, pp 592-597
More informationVocabulary. Electric Current. Electric Circuit. Open Circuit. Conductors. Insulators. Ohm s Law Current. Voltage. Resistance.
Vocabulary Term Electric Current Definition Electric Circuit Open Circuit Conductors Insulators Ohm s Law Current Voltage Resistance Electrical Power Series Circuit Parallel Circuit Page 1 Symbols Used
More informationPage 2 A 42% B 50% C 84% D 100% (Total 1 mark)
Q1.A transformer has 1150 turns on the primary coil and 500 turns on the secondary coil. The primary coil draws a current of 0.26 A from a 230 V ac supply. The current in the secondary coil is 0.50 A.
More informationpotential difference resistance current
1 (a) The following electrical quantities are often used when analysing circuits. Draw a straight line from each quantity on the left-hand side to its correct units on the right-hand side. potential difference
More informationResistance and Ohm s Law
Resistance and Ohm s Law Textbook pages 290 301 Section 8.3 Summary Before You Read Do you think electrons can move through all conducting substances equally well? Give your reasons why or why not on the
More informationElectromagnetism Unit- Current Sub-Unit
4.2.1 Electrical Current Definitions current unit: or requires: Example #3 A wire carries a current of 50 amperes. How much charge flows through the wire in 10 seconds? How many electrons pass through
More informationElectric Circuits Notes 1 Circuits
Electric Circuits Notes 1 Circuits In the last chapter we examined how static electric charges interact with one another. These fixed electrical charges are not the same as the electricity that we use
More informationElectrical Circuits Question Paper 6
Electrical Circuits Question Paper 6 Level IGCSE Subject Physics Exam Board CIE Topic Electricity and Magnetism Sub-Topic Electrical Circuits Paper Type lternative to Practical Booklet Question Paper 6
More informationElectricity. Intext Exercise 1
Intext Exercise 1 Question 1: What does an electric circuit mean? Solution 1: A continuous and closed path of an electric current is called an electric circuit. electric circuit consists of electric devices
More informationUNIT-2 CURRENT ELECTRICITY
UNIT-2 CURRENT ELECTRICITY 1 Marks Question 1. A wire of resistance R is cut into n equal parts.these parts are then connected in parallel with each other. The equivalent resistance of the combination
More informationElectric Current - 1 v Goodman & Zavorotniy
Chapter Problems Electric Current Classwork 1. If 560 C of electric charge passed through a light bulb in 8 min; what was the magnitude of the average electric current passing through the bulb? 2. If the
More information6-2 Electricity Trilogy
6-2 Electricity Trilogy.0 Most domestic appliances are connected to the mains electricity.. What is the frequency of mains electricity? Tick one box [ mark].05 A 50 Hz 230 V.2 What is the potential difference
More informationChapter 20. Circuits. q I = t. (a) (b) (c) Energy Charge
Chapter 0 n an electric circuit, an energy source and an energy consuming device are connected by conducting wires through which electric charges move. Circuits Within a battery, a chemical reaction occurs
More informationChapter 28. Direct Current Circuits
Chapter 28 Direct Current Circuits Outline 28.1 Electromotive Force 28.2 Resistors in Series and Parallel 28.3 Kirchhoff s Rules 28.1 Electromotive Force (emf) Because the potential difference at the battery
More information3. The current through a given section is steady at 30 pa. How long does a charge of 12 μc take to cross the section? (111 hours)
UNIVERSITY OF TECHNOLOGY ELECROMECHNICAL DEPARTMANT SYSTEMS BRANCH Dr. Sameir Abd Alkhalik Aziez FIRST YEAR ELECTROMECHNICAL ENGINEERING BASICS ELECRICAL ENGINEERING Question Sheet (1) 1.Give the dimensions
More informationRESISTANCE IN WIRES 4) 4R
RESISTANCE IN WIRES NAME: 1. A copper wire of length L and cross-sectional area A has resistance R. A second copper wire at the same temperature has a length of 2L and a cross-sectional area of 1 2A. What
More informationI p = V s = N s I s V p N p
UNIT G485 Module 1 5.1.3 Electromagnetism 11 For an IDEAL transformer : electrical power input = electrical power output to the primary coil from the secondary coil Primary current x primary voltage =
More information2008 D AI Prove that the current density of a metallic conductor is directly proportional to the drift speed of electrons.
2008 D 1. Prove that the current density of a metallic conductor is directly proportional to the drift speed of electrons. 2. A number of identical cells, n, each of emf E, internal resistance r connected
More informationYAL. 12 Electricity. Assignments in Science Class X (Term I) IMPORTANT NOTES
Assignments in Science Class X (Term I) 12 Electricity IMPORTANT NOTES 1. There are two kinds of electric charges i.e., positive and negative. The opposite charges attract each other and the similar charges
More information1. If the flux associated with a coil varies at the rate of 1 weber/min,the induced emf is
1. f the flux associated with a coil varies at the rate of 1 weber/min,the induced emf is 1 1. 1V 2. V 60 3. 60V 4. Zero 2. Lenz s law is the consequence of the law of conservation of 1. Charge 2. Mass
More informationUnit 3. Electrical Circuits
Strand G. Electricity Unit 3. Electrical Circuits Contents Page Representing Direct Current Circuits 2 Rules for Series Circuits 5 Rules for Parallel Circuits 9 Circuit Calculations 14 G.3.1. Representing
More informationForces and Electrical Charges
CHAPTER 7 BLM 3-8 Forces and Electrical Charges Goal Review your knowledge of electric charge and its interaction with conductors, insulators, and electroscopes. Answer the questions that follow. 1. Classify
More informationCBSE TEST PAPER-01 CLASS - X Science (Electricity and its Effects)
CBSE TEST PAPER-01 CLASS - X Science (Electricity and its Effects) 1. Which two circuit components are connected in parallel in the following circuit diagram? - >. < < 2. A metallic conductor has loosely
More informationkg per litre
AS Physics - Experiment Questions for Unit 2 1. Explain what is meant by the term polarisation when referring to light............. Sugar is produced from plants such as sugar cane. The stems are crushed
More informationUnit 4: Electricity (Part 1)
Unit 4: Electricity (Part 1) Learning Outcomes Students should be able to: 1. Explain what is meant by current, potential difference and resistance, stating their units 2. Draw and interpret circuit diagrams
More informationAn electric circuit consists of electric devices, switching devices, source of electricity, etc. that are
Class:X Page 200»Question» What does an electric circuit mean? An electric circuit consists of electric devices, switching devices, source of electricity, etc. that are connected by conducting wires. Define
More informationSummer Vacation Homework Physics O'3
Summer vacation Homework Physics O'3 1 (a) A sound wave in air consists of alternate compressions and rarefactions along its path. Explain how a compression differs from a rarefaction. 1 Explain, in terms
More informationChapter 20 Electric Circuits
Chapter 20 Electric Circuits 1 20.1 Electromotive Force and Current In an electric circuit, an energy source and an energy consuming device are connected by conducting wires through which electric charges
More informationThese are samples of learning materials and may not necessarily be exactly the same as those in the actual course. Contents 1.
Contents These are samples of learning materials and may not necessarily be exactly the same as those in the actual course. Contents 1 Introduction 2 Ohm s law relationships 3 The Ohm s law equation 4
More informationFigure 1. Why is iron a suitable material for the core of a transformer?
INDUCED POTENTIAL, TRANSFORMERS: NAT GRID Q1. Figure 1 shows the construction of a simple transformer. Figure 1 Why is iron a suitable material for the core of a transformer? Tick one box. It is a metal.
More informationPHYS 102 Quiz Problems Chapter 27 : Circuits Dr. M. F. Al-Kuhaili
PHYS 102 Quiz Problems Chapter 27 : Circuits Dr. M. F. Al-Kuhaili 1. (TERM 002) (a) Calculate the current through each resistor, assuming that the batteries are ideal. (b) Calculate the potential difference
More information1 Ω = 1 V A -1 ELECTRICAL RESISTANCE (R) 1. Candidates should be able to:
ELECTRCAL RESSTANCE (R) 1 Candidates should be able to: Define RESSTANCE. Of a conductor or component is a measure of its opposition to the flow of charge (i.e. to electric current). Select and use the
More informationPHYSICS FORM 5 ELECTRICITY
Current Types of Current: 1. Conventional Current 2. Electric Current Conventional Current Long ago, it was believed that current was a flow of positive charges. The direction of conventional current therefore
More informationElectricity Practice Test 1
Electricity Practice Test 1 Name: ate: 1. This diagram represents a closed circuit with three light bulbs and a 10-volt battery. 3. This diagram represents a circuit with three 20-ohm light bulbs. The
More informationLab 4 OHM S LAW AND KIRCHHOFF S CIRCUIT RULES
57 Name Date Partners Lab 4 OHM S LAW AND KIRCHHOFF S CIRCUIT RULES AMPS - VOLTS OBJECTIVES To learn to apply the concept of potential difference (voltage) to explain the action of a battery in a circuit.
More informationTransformers. Question Paper. Save My Exams! The Home of Revision. Subject Physics (4403) Exam Board. Keeping Things Moving. Page 1.
Transformers Question Paper Level IGCSE Subject Physics (4403) Exam Board AQA Unit P3 Topic Keeping Things Moving Sub-Topic Transformers Booklet Question Paper Time Allowed: 58 minutes Score: /58 Percentage:
More informationCURRENT, POTENTIAL DIFFERENCE AND RESISTANCE PART I
CURRENT, POTENTIAL DIFFERENCE AND RESISTANCE PART I Q1. An electrical circuit is shown in the figure below. (a) The current in the circuit is direct current. What is meant by direct current? Tick one box.
More informationELE.B: Original Assignment Resistors in Series Classwork Homework
ELE.B: Original Assignment Resistors in Series Classwork 1. A 3 Ω resistor is connected in series to a 6 Ω resistor and a 12-V battery. What is the current in each of the resistors? What is the voltage
More informationSyllabus OP49 Test electrical conduction in a variety of materials, and classify each material as a conductor or insulator
Physics: 14. Current Electricity Please remember to photocopy 4 pages onto one sheet by going A3 A4 and using back to back on the photocopier Syllabus OP49 Test electrical conduction in a variety of materials,
More informationElectrical Measurements
Electrical Measurements INTRODUCTION In this section, electrical measurements will be discussed. This will be done by using simple experiments that introduce a DC power supply, a multimeter, and a simplified
More informationFriday 18 January 2013 Morning
Friday 18 January 2013 Morning AS GCE PHYSICS A G482/01 Electrons, Waves and Photons *G411580113* Candidates answer on the Question Paper. OCR supplied materials: Data, Formulae and Relationships Booklet
More informationFigure 1. (a) The wire in an unused probe has a resistance of Ω and a length of 0.50 m. Calculate the diameter of the wire.
A wire probe is used to measure the rate of corrosion in a pipe carrying a corrosive liquid. The probe is made from the same metal as the pipe. Figure shows the probe. The rate of corrosion of the wire
More informationPre-LAB 5 Assignment
Name: Lab Partners: Date: Pre-LA 5 Assignment Fundamentals of Circuits III: Voltage & Ohm s Law (Due at the beginning of lab) Directions: Read over the Lab Fundamentals of Circuits III: Voltages :w & Ohm
More informationPhysicsAndMathsTutor.com 1
Q1. Domestic users in the United Kingdom are supplied with mains electricity at a root mean square voltage of 230V. (a) State what is meant by root mean square voltage.......... (1) (b) Calculate the peak
More informationSection 18.1 Sources of emf. Section 18.2 Resistors in Series. Section 18.3 Resistors in Parallel
PROBLEMS 1, 2, 3 = straightforward, intermediate, challenging = full solution available in Student Solutions Manual/Study Guide = biomedical application Section 18.1 Sources of emf Section 18.2 Resistors
More informationELECTROMAGNETIC INDUCTION AND ALTERNATING CURRENT (Assignment)
ELECTROMAGNETIC INDUCTION AND ALTERNATING CURRENT (Assignment) 1. In an A.C. circuit A ; the current leads the voltage by 30 0 and in circuit B, the current lags behind the voltage by 30 0. What is the
More informationDC CIRCUITS AND OHM'S LAW
July 15, 2008 DC Circuits and Ohm s Law 1 Name Date Partners DC CIRCUITS AND OHM'S LAW AMPS - VOLTS OBJECTIVES OVERVIEW To learn to apply the concept of potential difference (voltage) to explain the action
More information1 What is an example of a device that changes chemical energy into electrical energy? (A) battery (B) generator (C) light bulb (D) transformer
Assignment 1 Electricity Name: 1 What is an example of a device that changes chemical energy into electrical energy? (A) battery (B) generator (C) light bulb (D) transformer 2 What is the definition for
More informationVISUAL PHYSICS ONLINE. Experiment PA41A ELECTRIC CIRCUITS
VISUAL PHYSICS ONLINE Experiment PA41A ELECTRIC CIRCUITS Equipment (see Appendices) 12V DC power supply (battery): multimeter (and/or milliammeter and voltmeter); electrical leads; alligator clips; fixed
More informationANSWERS AND MARK SCHEMES. (a) 3 A / 2 1 = 1.5 A 1. (b) 6 V 1. (c) resistance = V / I 1 = 6 / (b) I = V / R 1 = 3 / 15 1 = 0.
QUESTIONSHEET (a) 3 A / 2 =.5 A (b) 6 V (c) resistance = V / I = 6 /.5 = 4 Ω QUESTIONSHEET 2 TOTAL / 6 (a) 5 Ω + 0 Ω = 5 Ω (b) I = V / R = 3 / 5 = 0.2 A Units are essential in calculations. Sometimes eamination
More informationCURRENT ELECTRICITY. 1. The S.I. unit of power is (a) Henry (b) coulomb (c) watt (d) watt-hour Ans: c
CURRENT ELECTRICITY 1. The S.I. unit of power is (a) Henry (b) coulomb (c) watt (d) watt-hour 2. Electric pressure is also called (a) resistance (b) power (c) voltage (d) energy 3. The substances which
More informationFarr High School HIGHER PHYSICS. Unit 3 Electricity. Exam Question Booklet
Farr High School HIGHER PHYSICS Unit 3 Electricity Exam Question Booklet 1 2 MULTIPLE CHOICE QUESTIONS 1. 3. 2. 4. 3 5. 6. 7. 4 8. 9. 5 10. 11. 6 12. 13. 14. 7 15. 16. 17. 8 18. 20. 21. 19. 9 MONITORING
More information