Draw, in the space below, a circuit diagram of this circuit. Use the correct symbols for each part of the circuit.

Similar documents
INFORMATION FOR CANDIDATES

Electricity Transition Questions Applied General in Science

Q2. Figure 1 shows the oscilloscope trace an alternating current (a.c.) electricity supply produces.

The equation which links current, potential difference and resistance is:

PhysicsAndMathsTutor.com 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 [2] ...

6-2 Electricity Trilogy

Name: Period: Date: 2. In the circuit below, n charge carriers pass the point P in a time t. Each charge carrier has charge q.

... (1) A battery of emf ε and negligible internal resistance is connected in series to two resistors. The current in the circuit is I.

Section 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?

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.

PhysicsAndMathsTutor.com 1

Resistance and Ohm s law

CURRENT, POTENTIAL DIFFERENCE AND RESISTANCE PART I

Electric Circuits Review

Resistance and Ohm s Law

Downloaded from

PhysicsAndMathsTutor.com 1

8.0 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 What is an example of a device that changes chemical energy into electrical energy? (A) battery (B) generator (C) light bulb (D) transformer

2 Which arrangement of identical resistors would draw the most current when connected to the same potential difference?

D V (Total 1 mark)

BSE Physics II Experiment 03 Applications on Ohm's Law. # Student ID Student Name Grade (10) 1 2 3

OHM 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

ANSWERS 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.

Series and parallel resistances

PhysicsAndMathsTutor.com 1

Electric Currents 2 D V. (1)

State an equation giving the total power delivered by the battery.

1. A battery of internal resistance 2 Ω is connected to an external resistance of 10 Ω. The current is 0.5 A.

Physics Circuits. Day 1. QQ5. A charge of 45 C passes through a 12-ohm resistor in 5 seconds. What is the current?

Resistance and Ohm s Law R V I. 1 ohm = 1 volt ampere

ELECTRICAL CIRCUITS. All you need to be an inventor is a good imagination and a pile of junk. -Thomas Edison

Current, resistance, and Ohm s law

PHYS 1402 General Physics II Experiment 5: Ohm s Law

A2 WAVES. Waves. 1 The diagram represents a segment of a string along which a transverse wave is travelling.

Vocabulary. Electric Current. Electric Circuit. Open Circuit. Conductors. Insulators. Ohm s Law Current. Voltage. Resistance.

Series and Parallel DC Circuits

Book page Syllabus 2.8, 2.9, Series and parallel circuits

8) Name three more types of circuits that we will not study in this class.

P2 Quick Revision Questions. P2 for AQA GCSE examination 2018 onwards

Chapters 34: Ohm s Law

A piece of wire of resistance R is cut into five equal parts. These parts are then connected in

Electromagnetism Unit- Current Sub-Unit

Experiment 2 Electric Circuit Fundamentals

A resistor adds resistance to a circuit. Describe what the effect of adding resistance would have on the current flowing in the circuit.

Electricity. Intext Exercise 1

Regents Physics Mr. Mellon Based on Chapter 22 and 23

CBSE TEST PAPER-01 CLASS - X Science (Electricity and its Effects)

Period 12 Activity Sheet Solutions: Electric Circuits

Theme 5: Electricity in the Home

RESISTANCE IN WIRES 4) 4R

is 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.

Topic 4 Exam Questions Resistance

Electric Current & DC Circuits

D W. (Total 1 mark)

These are samples of learning materials and may not necessarily be exactly the same as those in the actual course. Contents 1.

Current Electricity. What is Current Electricity? Electrical Circuits Electrochemical Cells. Wet, Dry and Fuel Cells

ELE.B: Original Assignment Resistors in Series Classwork Homework

Section B: Electricity

Standard Grade Physics

South Pasadena A.P. Physics Chapter Electric Current & DC Circuits Date / / Period Electricity Practice Test

Putting it All Together

Electric Circuits. Physics 6 th Six Weeks

ELECTRIC CIRCUIT PROBLEMS 12 AUGUST 2014

General Department PHYSICS LABORATORY APHY 112 EXPERIMENT 2: OHMS LAW. Student s name... Course Semester. Year.Reg.No

Calculate the maximum amount of energy this battery can deliver.

Series and Parallel Resistors

Module 1, Lesson 2 Introduction to electricity. Student. 45 minutes

ELECTRIC Circuits Test

Pre-Lab for Batteries and Bulbs

Figure 1. Why is iron a suitable material for the core of a transformer?

Syllabus OP49 Test electrical conduction in a variety of materials, and classify each material as a conductor or insulator

PH213 Chapter 26 solutions

Activity Electrical Circuits Simulation

E 1 Ι 1 R 1 R 2 Ι 3 R 3 E 2 Ι 2

Wallace Hall Academy Physics Department. Electricity. Pupil Notes Name:

DC Circuits. Date: Introduction

Unit 3. Electrical Circuits

National Physics. Electricity and Energy Homework. Section 2 Electrical Power

the total number of electrons passing through the lamp.

An electric circuit consists of electric devices, switching devices, source of electricity, etc. that are

Activity Electrical Circuits Simulation

Summer Vacation Homework Physics O'3

Electricity Practice Test 1

Section 4. Ohm s Law: Putting up a Resistance. What Do You See? What Do You Think? Investigate

PV Activity 3 PV Loads

Lightbulbs and Dimmer Switches: DC Circuits

PHYSICS 3204 PUBLIC EXAM QUESTIONS (Electric Circuits)

Chapter 12 Electric Circuits

Unit 4: Electricity (Part 1)

Electric Current - 1 v Goodman & Zavorotniy

Voltage Current and Resistance II

TO INVESTIGATE THE VARIATION OF CURRENT (I) WITH P.D. (V) FOR (a) A METALLIC CONDUCTOR

Lab 5: Real DC Circuits

CHAPTER 3: ELECTRIC CURRENT AND DIRECT CURRENT CIRCUIT

Electrical Circuits Question Paper 6

Chapters 35: Electric Circuits

KENYA NATIONAL EXAMINATION COUNCIL REVISION MOCK EXAMS 2016 TOP NATIONAL SCHOOLS

Resistance and Ohm s Law

Transcription:

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, a circuit diagram of this circuit. Use the correct symbols for each part of the circuit. (b) Write down the equation that links current, potential difference and resistance. Calculate the potential difference across the 5 ohm (Ω) resistor when the current through the resistor equals 0.4 A. Show clearly how you work out your final answer. potential difference =... volts Page 1 of 10

(iii) Complete the graph to show how the current through the resistor changes as the potential difference across the resistor increases from 0 V to 3 V. Assume the resistor stays at a constant temperature. (c) The resistor is replaced by a 3 V filament lamp. The resistance of the lamp increases as the potential difference across it increases. Why?...... (Total 8 marks) Q2. (a) The diagram shows the circuit used to investigate the resistance of a material. The diagram is incomplete; the ammeter and voltmeter are missing. Draw the symbols for the ammeter and voltmeter on the diagram in the correct places. How can the current through the material be changed? Page 2 of 10

(b) The material, called conducting putty, is rolled into cylinders of different lengths but with equal thicknesses. Graph 1 shows how the resistance changes with length. Graph 1 Why has the data been shown as a line graph rather than a bar chart? The current through a 30 cm length of conducting putty was 0.15 A. Use Graph 1 to find the resistance of a 30 cm length of conducting putty. Resistance =... ohms (iii) Use your answer to (b) and the equation in the box to calculate the potential difference across a 30 cm length of conducting putty. potential difference = current resistance Show clearly how you work out your answer. Potential difference =... volts Page 3 of 10

(c) A second set of data was obtained using thicker pieces of conducting putty. Both sets of results are shown in Graph 2. Graph 2 What is the relationship between the resistance and the thickness of the conducting putty? Name one error that may have reduced the accuracy of the results. (iii) How could the reliability of the data have been improved? (Total 10 marks) Page 4 of 10

Q3. (a) The circuit diagram drawn below includes a component labelled X. Use the equation in the box to calculate the potential difference across the 8 ohm resistor. potential difference = current resistance Show clearly how you work out your answer. Potential difference =... volts What is the potential difference across component X? Page 5 of 10

(b) The graph shows how the resistance of component X changes with temperature. What is component X?... Over which range of temperatures does the resistance of component X change the most? Put a tick ( ) next to your choice. 0 C to 20 C 20 C to 40 C 40 C to 60 C 60 C to 80 C 80 C to 100 C (Total 5 marks) Page 6 of 10

Q4. A set of Christmas tree lights is made from twenty identical lamps connected in series. (a) Each lamp is designed to take a current of 0.25 A. The set plugs directly into the 230 V mains electricity supply. Write down the equation that links current, potential difference and resistance. Calculate the resistance of one of the lamps. Show clearly how you work out your final answer and give the unit. Resistance =... (4) (iii) What is the total resistance of the set of lights? Total resistance =... Page 7 of 10

(b) How does the resistance of a filament lamp change as the temperature of the filament changes?............ (Total 7 marks) Q5. A small torch uses a single cell to make the bulb light up. (a) The graphs show the voltage across two different types of cell as they transfer the last bit of their stored energy through the torch bulb. Describe the differences that the graphs show between the two types of cell....... (3) (b) The diagram shows how bright the torch bulb is for different voltages. From the point when the voltage of each cell starts to fall, how long will the bulb stay lit: with the ordinary cell? Page 8 of 10

with the nicad cell? (4) (c) When the voltage across the bulb falls to half, the current through the bulb falls by less than half. Why is this?............ (3) (Total 10 marks) Page 9 of 10

2024 © hobbydocbox.com Privacy Policy | Terms of Service | Feedback