SlideShare a Scribd company logo

current, voltage and resistance

Jimnaira Abanto
Jimnaira Abanto

The document discusses key concepts about electricity including: - Electric current is the flow of charged particles in a circuit. It is measured in amperes. - Voltage is the electric potential difference between two points in a circuit. It drives the electric current and is measured in volts. - Resistance opposes the flow of current and is measured in ohms. It varies based on the material's properties. - Ohm's law states the relationship between current, voltage, and resistance in a circuit. Increased resistance decreases current.

Education
1 of 34
ELECTRICIT Y• How do voltage and resistance affect electric current? • What are the safety precautions needed in using electricity?
CURRENT & VOLTAGE
CIRCUIT Is any arrangement of materials that provides a path for electrons to flow. It consists of a source of electrical energy, connecting wires and a load.
ELECTRIC CURRENT -> is the movement of charged particles in a specific direction. -> is a measure of the number of electrical charges passing through a cross section of a conductor in a given time. I = 𝑞 𝑡 Where: I = current q = electrical Charge t = time
What is the direction of current?
CONVENTIONAL CURRENT OR SIMPLY CURRENT -> is the movement of charges from the positive side of the battery to the negative side. ELECTRON CURRENT -> is the direction of the flow of electrons is from the negative terminal to the positive terminal. **The direction of current does not affect what the current does.
ELECTRIC CURRENT  The unit, ampere (A), is named after Andre-Marie Ampere, a French physicist who made important contributions to the theory of electricity and magnetism.  1 ampere means that there is 1 coulomb of charge passing through a cross section of a wire every 1 second. ammeter measures electric current or measures how much charges flow in a certain cross section at a given time, it has to be connected in series.
Shows how the ammeter is connected in a circuit. The positive terminal of an ammeter is connected to the positive terminal of the energy source (e.g. battery) while the negative terminal is connected to the negative terminal of the energy source.
ELECTRIC CURRENT May be: 1. Direct Current (DC) 2. Alternating Current (AC)
What makes the charges move in a closed circuit?
VOLTAGE (V) -> the electric pressure that causes current to flow.
VOLTAGE (V) -> is the potential difference between two points in an electric field. -> is the work done on the charges as it passes through a load is measured as the voltage across the load. V= Where: V = voltage W = Work q = charge *A voltmeter measures voltage. *The unit of voltage is volt (V), named after Alessandro Volta who invented the voltaic pile, the forerunner of what we now call the dry cell. 𝑊 𝑞
VOLTAGE (V) The voltmeter must be connected parallel or across the load. The positive terminal of a voltmeter is connected to the positive terminal of the bulb while the negative terminal is connected to the negative terminal of the bulb.
Calculating Current and Voltage Samples: 1. A charge of 825 coulombs was passed through a wire in 1 minute. What was the average electric current during that interval? 2. Calculate the Voltage if 300 Joules of work is used to move a charge of 150 C?
CURRENT & RESISTANCE
RESISTANCE • As the term implies, the resistance of the material opposes the flow of charges. -> is the opposition of a material offers to current. -> it can also be measured and they are expressed in units called Ohms (Ω), named after the German physicist Georg Simon Ohm.
OHM’S LAW States that “Current is directly proportional to the Voltage and inversely proportional to the resistance.” I = 𝑉 𝑅 Where: I = Current V = Voltage R = Resistance
OHM’S LAW
Factors Affect Resistance 1. A lower resistance would mean that there is less opposition in the flow of charges and therefore bigger current. 2. Different materials have different amounts of resistance. – Conductors definitely have very little resistance and therefore allow more charges to pass through. – Insulators are materials that have very high resistance and therefore flow of charges would be difficult.
Factors Affect Resistance 3. The length and thickness of the conducting wire are factors that affect resistance encountered by current. The longer the wire the greater will be its resistance and the greater the cross sectional area (a measure of the thickness of the wire), the lower will be its resistance. 4. The resistance of an object also changes when the object becomes wet. Ex. Dry human skin for instance has a resistance of 100,000 Ω but when it gets wet its resistance is reduced to 1,000 Ω .
QUANTITY SYMBOL EQUATION/S SI UNIT OTHER UNIT/S UNIT NAMED AFTER DEVICE USED TO MEASURE CURRENT I I = 𝑞 𝑡 I = 𝑉 𝑅 Ampere (A) C/s (Coulomb per Second) V/Ω (Volt per ohm) Andre- Marie Ampere Ammeter VOLTAGE V V = IR V = 𝑾 𝒒 Volt (V) J/C (Joule per Coulomb) Alessandr o Volta Voltmeter RESISTANCE R R = 𝑽 𝑰 Ohm (Ω) V/A (Volt per Ampere) Georg Simon Ohm Ohm meter
OHM’S LAW
ASSIGNMENT Bring the following by group: 3 connecting wires 2 identical bulbs with holder 2 dry cells with holder Page 61
Electrical Connections
TYPES OF CONNECTION SERIES CONNECTION -> is the loads are connected to form a single pathway for electric charges to pass. PARALLEL CONNECTION -> is the loads are connected to form branches, each of which provides a
Why do wires heat up when there is too much current?
HEATING EFFECT OF CURRENT 1. Overloading of the circuit ex. plugging a lot of appliances in a common outlet like an extension cord. 2. Short circuits - happen when wires with defective rubber insulation touch each other so the current does not pass to the supposed path it should take.
Why do wires heat up when there is too much current? In the wires, the electrons that flow in a closed circuit collide with the atoms of the conducting wire. As the collisions take place the kinetic energy of the metal atoms increases. The increased kinetic energy of the atoms is dissipated as heat.
Remember: The higher the current passing through the wire, the more collisions between the electrons and the atoms of the wire take place. In the end the wire will become hot.
Stay Safe! 

Recommended

Current And Voltages
Current And VoltagesCurrent And Voltages
Current And Voltages
ritchiek
 
Electric circuits
Electric circuitsElectric circuits
Electric circuits
Leann Jester Daus
 
Ohms law
Ohms lawOhms law
Ohms law
w1nds
 
Current, Voltage, & Resistance
Current, Voltage, & ResistanceCurrent, Voltage, & Resistance
Current, Voltage, & Resistance
Ben Wildeboer
 
Ohm’s law
Ohm’s lawOhm’s law
Ohm’s law
aichikun
 
OHM’S LAW.pptx
OHM’S LAW.pptxOHM’S LAW.pptx
OHM’S LAW.pptx
RolibethTuyorMercado
 
Circuits
CircuitsCircuits
Circuits
OhMiss
 
ELECTRICITY AND MAGNETISM
ELECTRICITY AND MAGNETISMELECTRICITY AND MAGNETISM
ELECTRICITY AND MAGNETISM
KANNAN
 

Recommended

Current And Voltages
Current And VoltagesCurrent And Voltages
Current And Voltages
ritchiek
 
Electric circuits
Electric circuitsElectric circuits
Electric circuits
Leann Jester Daus
 
Ohms law
Ohms lawOhms law
Ohms law
w1nds
 
Current, Voltage, & Resistance
Current, Voltage, & ResistanceCurrent, Voltage, & Resistance
Current, Voltage, & Resistance
Ben Wildeboer
 
Ohm’s law
Ohm’s lawOhm’s law
Ohm’s law
aichikun
 
OHM’S LAW.pptx
OHM’S LAW.pptxOHM’S LAW.pptx
OHM’S LAW.pptx
RolibethTuyorMercado
 
Circuits
CircuitsCircuits
Circuits
OhMiss
 
ELECTRICITY AND MAGNETISM
ELECTRICITY AND MAGNETISMELECTRICITY AND MAGNETISM
ELECTRICITY AND MAGNETISM
KANNAN
 
Electricity lesson
Electricity lessonElectricity lesson
Electricity lesson
Eliana Alarcon
 
Electric charges
Electric chargesElectric charges
Electric charges
Zahra
 
Voltage
VoltageVoltage
Voltage
Daniel McClelland
 
Electric Circuits
Electric CircuitsElectric Circuits
Electric Circuits
itutor
 
Electrical circuit
Electrical circuitElectrical circuit
Electrical circuit
Beberly Fabayos
 
Electric Charge
Electric ChargeElectric Charge
Electric Charge
D MacCarthy
 
7.5 electrical energy and power
7.5 electrical energy and power7.5 electrical energy and power
7.5 electrical energy and power
Adlishah Risal Bili
 
Introducing Electricity
Introducing ElectricityIntroducing Electricity
Introducing Electricity
scotfuture
 
Electricity
ElectricityElectricity
Electricity
Neus Viñallonga
 
Series and Parallel Circuits
Series and Parallel CircuitsSeries and Parallel Circuits
Series and Parallel Circuits
Nurul Fadhilah
 
Conductors and insulators
Conductors and insulatorsConductors and insulators
Conductors and insulators
SohamMantre
 
ELECTRICAL RESISTANCE
ELECTRICAL RESISTANCEELECTRICAL RESISTANCE
ELECTRICAL RESISTANCE
MAHESWARI JAIKUMAR
 
Electric Current
Electric CurrentElectric Current
Electric Current
jeric lora
 
Electricity
ElectricityElectricity
Electricity
Karl Coelho
 
Series & Parallel
Series & ParallelSeries & Parallel
Series & Parallel
fourangela
 
Electrical Power and Energy
Electrical Power and EnergyElectrical Power and Energy
Electrical Power and Energy
Louie Jane Eleccion, LPT
 
Series and parallel circuit
Series and parallel circuitSeries and parallel circuit
Series and parallel circuit
Noman Rajput
 
Kinetic energy
Kinetic energyKinetic energy
Kinetic energy
Jimnaira Abanto
 
Electricity, magnetism and electromagnetism
Electricity, magnetism and electromagnetismElectricity, magnetism and electromagnetism
Electricity, magnetism and electromagnetism
airwave12
 
Voltage, current, resistance, and ohm's law
Voltage, current, resistance, and ohm's lawVoltage, current, resistance, and ohm's law
Voltage, current, resistance, and ohm's law
Anaya Zafar
 
L6.ppt
L6.pptL6.ppt
L6.ppt
DrMuhammadTahir4
 
electricity class 10th .pdf
electricity class 10th .pdfelectricity class 10th .pdf
electricity class 10th .pdf
HimanshuPathak86898
 

More Related Content

What's hot

Electric charges
Electric chargesElectric charges
Electric charges
Zahra
 
Electric Circuits
Electric CircuitsElectric Circuits
Electric Circuits
itutor
 
Series & Parallel
Series & ParallelSeries & Parallel
Series & Parallel
fourangela
 

What's hot (20)

Electricity lesson
Electricity lessonElectricity lesson
Electricity lesson
 
Electric charges
Electric chargesElectric charges
Electric charges
 
Voltage
VoltageVoltage
Voltage
 
Electric Circuits
Electric CircuitsElectric Circuits
Electric Circuits
 
Electrical circuit
Electrical circuitElectrical circuit
Electrical circuit
 
Electric Charge
Electric ChargeElectric Charge
Electric Charge
 
7.5 electrical energy and power
7.5 electrical energy and power7.5 electrical energy and power
7.5 electrical energy and power
 
Introducing Electricity
Introducing ElectricityIntroducing Electricity
Introducing Electricity
 
Electricity
ElectricityElectricity
Electricity
 
Series and Parallel Circuits
Series and Parallel CircuitsSeries and Parallel Circuits
Series and Parallel Circuits
 
Conductors and insulators
Conductors and insulatorsConductors and insulators
Conductors and insulators
 
ELECTRICAL RESISTANCE
ELECTRICAL RESISTANCEELECTRICAL RESISTANCE
ELECTRICAL RESISTANCE
 
Electric Current
Electric CurrentElectric Current
Electric Current
 
Electricity
ElectricityElectricity
Electricity
 
Series & Parallel
Series & ParallelSeries & Parallel
Series & Parallel
 
Electrical Power and Energy
Electrical Power and EnergyElectrical Power and Energy
Electrical Power and Energy
 
Series and parallel circuit
Series and parallel circuitSeries and parallel circuit
Series and parallel circuit
 
Kinetic energy
Kinetic energyKinetic energy
Kinetic energy
 
Electricity, magnetism and electromagnetism
Electricity, magnetism and electromagnetismElectricity, magnetism and electromagnetism
Electricity, magnetism and electromagnetism
 
Voltage, current, resistance, and ohm's law
Voltage, current, resistance, and ohm's lawVoltage, current, resistance, and ohm's law
Voltage, current, resistance, and ohm's law
 

Similar to current, voltage and resistance

Electricity Made By Tej Patel
Electricity Made By Tej PatelElectricity Made By Tej Patel
Electricity Made By Tej Patel
Tej Patel
 

Similar to current, voltage and resistance (20)

L6.ppt
L6.pptL6.ppt
L6.ppt
 
electricity class 10th .pdf
electricity class 10th .pdfelectricity class 10th .pdf
electricity class 10th .pdf
 
ELECTRONICS 10: VOLTAGE
ELECTRONICS 10: VOLTAGEELECTRONICS 10: VOLTAGE
ELECTRONICS 10: VOLTAGE
 
class 10 chapter 12 - Electricity
class 10 chapter 12 - Electricityclass 10 chapter 12 - Electricity
class 10 chapter 12 - Electricity
 
class 10 chapter 12 - Electricity
class 10 chapter 12 - Electricityclass 10 chapter 12 - Electricity
class 10 chapter 12 - Electricity
 
Electricity Made By Tej Patel
Electricity Made By Tej PatelElectricity Made By Tej Patel
Electricity Made By Tej Patel
 
Hiteshi home work subject phy
Hiteshi home work subject phyHiteshi home work subject phy
Hiteshi home work subject phy
 
Electricity ppt
Electricity pptElectricity ppt
Electricity ppt
 
Electricity
ElectricityElectricity
Electricity
 
MODULE 1.ppt
MODULE 1.pptMODULE 1.ppt
MODULE 1.ppt
 
ELECTRICITY.ppt-converted.pptx
ELECTRICITY.ppt-converted.pptxELECTRICITY.ppt-converted.pptx
ELECTRICITY.ppt-converted.pptx
 
Class x electricity ppt
Class x electricity pptClass x electricity ppt
Class x electricity ppt
 
Std10 Electricity
Std10 ElectricityStd10 Electricity
Std10 Electricity
 
Electricity
ElectricityElectricity
Electricity
 
Current and Electricity for class 10.pdf
Current and Electricity for class 10.pdfCurrent and Electricity for class 10.pdf
Current and Electricity for class 10.pdf
 
Current and Electricity for class 10.pdf
Current and Electricity for class 10.pdfCurrent and Electricity for class 10.pdf
Current and Electricity for class 10.pdf
 
Electricity & Magnetism.pptx
Electricity & Magnetism.pptxElectricity & Magnetism.pptx
Electricity & Magnetism.pptx
 
1.mid course
1.mid course1.mid course
1.mid course
 
PP_ohms%20law.pptx
PP_ohms%20law.pptxPP_ohms%20law.pptx
PP_ohms%20law.pptx
 
Electricity, types of charges, current, circuits
Electricity, types of charges, current, circuitsElectricity, types of charges, current, circuits
Electricity, types of charges, current, circuits
 

More from Jimnaira Abanto

More from Jimnaira Abanto (20)

Data presentation and interpretation I Quantitative Research
Data presentation and interpretation I Quantitative ResearchData presentation and interpretation I Quantitative Research
Data presentation and interpretation I Quantitative Research
 
Research methodology I Quantitative Research
Research methodology I Quantitative Research Research methodology I Quantitative Research
Research methodology I Quantitative Research
 
Quantitative research design
Quantitative research designQuantitative research design
Quantitative research design
 
Sampling procedure and sample I Quantitative Research
Sampling procedure and sample I Quantitative ResearchSampling procedure and sample I Quantitative Research
Sampling procedure and sample I Quantitative Research
 
LITERATURE REVIEW
LITERATURE REVIEWLITERATURE REVIEW
LITERATURE REVIEW
 
Quantitative Research
Quantitative Research Quantitative Research
Quantitative Research
 
QUANTITATIVE RESEARCH VERSUS QUALITATIVE RESEARCH
QUANTITATIVE RESEARCH VERSUS QUALITATIVE RESEARCHQUANTITATIVE RESEARCH VERSUS QUALITATIVE RESEARCH
QUANTITATIVE RESEARCH VERSUS QUALITATIVE RESEARCH
 
THE VALUE OF QUALITATIVE RESEARCH
THE VALUE OF QUALITATIVE RESEARCHTHE VALUE OF QUALITATIVE RESEARCH
THE VALUE OF QUALITATIVE RESEARCH
 
TYPES OF RESEARCH
TYPES OF RESEARCHTYPES OF RESEARCH
TYPES OF RESEARCH
 
NATURE OF RESEARCH AND INQUIRY
NATURE OF RESEARCH AND INQUIRYNATURE OF RESEARCH AND INQUIRY
NATURE OF RESEARCH AND INQUIRY
 
Universal laws of physics
Universal laws of physicsUniversal laws of physics
Universal laws of physics
 
PHYSICAL SCIENCE (EARTH&SPACE)
PHYSICAL SCIENCE (EARTH&SPACE)PHYSICAL SCIENCE (EARTH&SPACE)
PHYSICAL SCIENCE (EARTH&SPACE)
 
Analyzing data
Analyzing dataAnalyzing data
Analyzing data
 
Methodology
MethodologyMethodology
Methodology
 
Qualitative research
Qualitative researchQualitative research
Qualitative research
 
Plagiarism lesson
Plagiarism lesson Plagiarism lesson
Plagiarism lesson
 
NATURE OF RESEARCH
NATURE OF RESEARCHNATURE OF RESEARCH
NATURE OF RESEARCH
 
UNDERSTANDING OUR ENVIRONMENT
UNDERSTANDING OUR ENVIRONMENTUNDERSTANDING OUR ENVIRONMENT
UNDERSTANDING OUR ENVIRONMENT
 
EDUCATION SYSTEM OF AUSTRALIA
EDUCATION SYSTEM OF AUSTRALIAEDUCATION SYSTEM OF AUSTRALIA
EDUCATION SYSTEM OF AUSTRALIA
 
Physical science chapter1 for shs
Physical science chapter1 for shsPhysical science chapter1 for shs
Physical science chapter1 for shs
 

Recently uploaded

1029-Danh muc Sach Giao Khoa khoi 6.pdf
1029-Danh muc Sach Giao Khoa khoi 6.pdf1029-Danh muc Sach Giao Khoa khoi 6.pdf
1029-Danh muc Sach Giao Khoa khoi 6.pdf
QucHHunhnh
 
Making communications land - Are they received and understood as intended? we...
Making communications land - Are they received and understood as intended? we...Making communications land - Are they received and understood as intended? we...
Making communications land - Are they received and understood as intended? we...
Association for Project Management
 

Recently uploaded (20)

UGC NET Paper 1 Mathematical Reasoning & Aptitude.pdf
UGC NET Paper 1 Mathematical Reasoning & Aptitude.pdfUGC NET Paper 1 Mathematical Reasoning & Aptitude.pdf
UGC NET Paper 1 Mathematical Reasoning & Aptitude.pdf
 
FSB Advising Checklist - Orientation 2024
FSB Advising Checklist - Orientation 2024FSB Advising Checklist - Orientation 2024
FSB Advising Checklist - Orientation 2024
 
SKILL OF INTRODUCING THE LESSON MICRO SKILLS.pptx
SKILL OF INTRODUCING THE LESSON MICRO SKILLS.pptxSKILL OF INTRODUCING THE LESSON MICRO SKILLS.pptx
SKILL OF INTRODUCING THE LESSON MICRO SKILLS.pptx
 
Micro-Scholarship, What it is, How can it help me.pdf
Micro-Scholarship, What it is, How can it help me.pdfMicro-Scholarship, What it is, How can it help me.pdf
Micro-Scholarship, What it is, How can it help me.pdf
 
1029-Danh muc Sach Giao Khoa khoi 6.pdf
1029-Danh muc Sach Giao Khoa khoi 6.pdf1029-Danh muc Sach Giao Khoa khoi 6.pdf
1029-Danh muc Sach Giao Khoa khoi 6.pdf
 
Making communications land - Are they received and understood as intended? we...
Making communications land - Are they received and understood as intended? we...Making communications land - Are they received and understood as intended? we...
Making communications land - Are they received and understood as intended? we...
 
General Principles of Intellectual Property: Concepts of Intellectual Proper...
General Principles of Intellectual Property: Concepts of Intellectual Proper...General Principles of Intellectual Property: Concepts of Intellectual Proper...
General Principles of Intellectual Property: Concepts of Intellectual Proper...
 
Application orientated numerical on hev.ppt
Application orientated numerical on hev.pptApplication orientated numerical on hev.ppt
Application orientated numerical on hev.ppt
 
Holdier Curriculum Vitae (April 2024).pdf
Holdier Curriculum Vitae (April 2024).pdfHoldier Curriculum Vitae (April 2024).pdf
Holdier Curriculum Vitae (April 2024).pdf
 
This PowerPoint helps students to consider the concept of infinity.
This PowerPoint helps students to consider the concept of infinity.This PowerPoint helps students to consider the concept of infinity.
This PowerPoint helps students to consider the concept of infinity.
 
Mixin Classes in Odoo 17 How to Extend Models Using Mixin Classes
Mixin Classes in Odoo 17 How to Extend Models Using Mixin ClassesMixin Classes in Odoo 17 How to Extend Models Using Mixin Classes
Mixin Classes in Odoo 17 How to Extend Models Using Mixin Classes
 
ICT Role in 21st Century Education & its Challenges.pptx
ICT Role in 21st Century Education & its Challenges.pptxICT Role in 21st Century Education & its Challenges.pptx
ICT Role in 21st Century Education & its Challenges.pptx
 
Accessible Digital Futures project (20/03/2024)
Accessible Digital Futures project (20/03/2024)Accessible Digital Futures project (20/03/2024)
Accessible Digital Futures project (20/03/2024)
 
Mehran University Newsletter Vol-X, Issue-I, 2024
Mehran University Newsletter Vol-X, Issue-I, 2024Mehran University Newsletter Vol-X, Issue-I, 2024
Mehran University Newsletter Vol-X, Issue-I, 2024
 
Understanding Accommodations and Modifications
Understanding Accommodations and ModificationsUnderstanding Accommodations and Modifications
Understanding Accommodations and Modifications
 
Basic Civil Engineering first year Notes- Chapter 4 Building.pptx
Basic Civil Engineering first year Notes- Chapter 4 Building.pptxBasic Civil Engineering first year Notes- Chapter 4 Building.pptx
Basic Civil Engineering first year Notes- Chapter 4 Building.pptx
 
Graduate Outcomes Presentation Slides - English
Graduate Outcomes Presentation Slides - EnglishGraduate Outcomes Presentation Slides - English
Graduate Outcomes Presentation Slides - English
 
Python Notes for mca i year students osmania university.docx
Python Notes for mca i year students osmania university.docxPython Notes for mca i year students osmania university.docx
Python Notes for mca i year students osmania university.docx
 
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
 
SOC 101 Demonstration of Learning Presentation
SOC 101 Demonstration of Learning PresentationSOC 101 Demonstration of Learning Presentation
SOC 101 Demonstration of Learning Presentation
 

current, voltage and resistance

  • 1. ELECTRICIT Y• How do voltage and resistance affect electric current? • What are the safety precautions needed in using electricity?
  • 3. CIRCUIT Is any arrangement of materials that provides a path for electrons to flow. It consists of a source of electrical energy, connecting wires and a load.
  • 4.
  • 5. ELECTRIC CURRENT -> is the movement of charged particles in a specific direction. -> is a measure of the number of electrical charges passing through a cross section of a conductor in a given time. I = 𝑞 𝑡 Where: I = current q = electrical Charge t = time
  • 6. What is the direction of current?
  • 7. CONVENTIONAL CURRENT OR SIMPLY CURRENT -> is the movement of charges from the positive side of the battery to the negative side. ELECTRON CURRENT -> is the direction of the flow of electrons is from the negative terminal to the positive terminal. **The direction of current does not affect what the current does.
  • 8. ELECTRIC CURRENT  The unit, ampere (A), is named after Andre-Marie Ampere, a French physicist who made important contributions to the theory of electricity and magnetism.  1 ampere means that there is 1 coulomb of charge passing through a cross section of a wire every 1 second. ammeter measures electric current or measures how much charges flow in a certain cross section at a given time, it has to be connected in series.
  • 9. Shows how the ammeter is connected in a circuit. The positive terminal of an ammeter is connected to the positive terminal of the energy source (e.g. battery) while the negative terminal is connected to the negative terminal of the energy source.
  • 10. ELECTRIC CURRENT May be: 1. Direct Current (DC) 2. Alternating Current (AC)
  • 11. What makes the charges move in a closed circuit?
  • 12. VOLTAGE (V) -> the electric pressure that causes current to flow.
  • 13. VOLTAGE (V) -> is the potential difference between two points in an electric field. -> is the work done on the charges as it passes through a load is measured as the voltage across the load. V= Where: V = voltage W = Work q = charge *A voltmeter measures voltage. *The unit of voltage is volt (V), named after Alessandro Volta who invented the voltaic pile, the forerunner of what we now call the dry cell. 𝑊 𝑞
  • 14.
  • 15. VOLTAGE (V) The voltmeter must be connected parallel or across the load. The positive terminal of a voltmeter is connected to the positive terminal of the bulb while the negative terminal is connected to the negative terminal of the bulb.
  • 16. Calculating Current and Voltage Samples: 1. A charge of 825 coulombs was passed through a wire in 1 minute. What was the average electric current during that interval? 2. Calculate the Voltage if 300 Joules of work is used to move a charge of 150 C?
  • 18. RESISTANCE • As the term implies, the resistance of the material opposes the flow of charges. -> is the opposition of a material offers to current. -> it can also be measured and they are expressed in units called Ohms (Ω), named after the German physicist Georg Simon Ohm.
  • 19. OHM’S LAW States that “Current is directly proportional to the Voltage and inversely proportional to the resistance.” I = 𝑉 𝑅 Where: I = Current V = Voltage R = Resistance
  • 21. Factors Affect Resistance 1. A lower resistance would mean that there is less opposition in the flow of charges and therefore bigger current. 2. Different materials have different amounts of resistance. – Conductors definitely have very little resistance and therefore allow more charges to pass through. – Insulators are materials that have very high resistance and therefore flow of charges would be difficult.
  • 22. Factors Affect Resistance 3. The length and thickness of the conducting wire are factors that affect resistance encountered by current. The longer the wire the greater will be its resistance and the greater the cross sectional area (a measure of the thickness of the wire), the lower will be its resistance. 4. The resistance of an object also changes when the object becomes wet. Ex. Dry human skin for instance has a resistance of 100,000 Ω but when it gets wet its resistance is reduced to 1,000 Ω .
  • 23. QUANTITY SYMBOL EQUATION/S SI UNIT OTHER UNIT/S UNIT NAMED AFTER DEVICE USED TO MEASURE CURRENT I I = 𝑞 𝑡 I = 𝑉 𝑅 Ampere (A) C/s (Coulomb per Second) V/Ω (Volt per ohm) Andre- Marie Ampere Ammeter VOLTAGE V V = IR V = 𝑾 𝒒 Volt (V) J/C (Joule per Coulomb) Alessandr o Volta Voltmeter RESISTANCE R R = 𝑽 𝑰 Ohm (Ω) V/A (Volt per Ampere) Georg Simon Ohm Ohm meter
  • 25. ASSIGNMENT Bring the following by group: 3 connecting wires 2 identical bulbs with holder 2 dry cells with holder Page 61
  • 27. TYPES OF CONNECTION SERIES CONNECTION -> is the loads are connected to form a single pathway for electric charges to pass. PARALLEL CONNECTION -> is the loads are connected to form branches, each of which provides a
  • 28.
  • 29.
  • 30. Why do wires heat up when there is too much current?
  • 31. HEATING EFFECT OF CURRENT 1. Overloading of the circuit ex. plugging a lot of appliances in a common outlet like an extension cord. 2. Short circuits - happen when wires with defective rubber insulation touch each other so the current does not pass to the supposed path it should take.
  • 32. Why do wires heat up when there is too much current? In the wires, the electrons that flow in a closed circuit collide with the atoms of the conducting wire. As the collisions take place the kinetic energy of the metal atoms increases. The increased kinetic energy of the atoms is dissipated as heat.
  • 33. Remember: The higher the current passing through the wire, the more collisions between the electrons and the atoms of the wire take place. In the end the wire will become hot.