SlideShare une entreprise Scribd logo

Batteries.pptx

Télécharger en tant que PPTX, PDF
R
ReinAntonioII

How batteries work

Formation
1  sur  33
AMT 616 Basic Electricity Batteries
Definition of Terms Electrolyte - is a chemical that allows an electrical charge to pass between the two terminals. Anode - where an oxidation reaction occurs. Cathode- it is said to be the electrode where reduction occurs.
Definition of Terms Internal Resistance - The internal resistance (IR) of a battery is defined as the opposition to the flow of current within the battery.
Introduction to Batteries Battery A battery is a device that converts chemical energy to electrical energy. A battery’s chemical reactions involve the flow of electrons from one material (electrode) to another via an external circuit. The flow of electrons generates an electric current, which can be used to perform work.
Introduction to Batteries What Is Battery Electrolyte? The battery electrolyte is a solution inside batteries. Depending on the type of battery, it can be a liquid or paste-like substance. However, no matter the type of battery, the electrolyte serves the same purpose: it transports positively charged ions between the cathode and anode terminals. Electrolyte serves as catalyst to make a battery conductive by promoting the movement of ions from the cathode to the anode on charge and in reverse on discharge.
Introduction to Batteries How Does Battery Electrolyte Work? A battery has three major components – the cathode, the anode, and an electrolyte that separates these two terminals. The electrolyte is a chemical that allows an electrical charge to pass between the two terminals. The electrolyte puts the chemicals required for the reaction in contact with the anode and cathode, therefore converting stored energy into usable electrical energy. This reaction provides power to the connected device, whether it’s a light, a vacuum, or an electric vehicle.
Introduction to Batteries Battery Parts Cells are comprised of 3 essential components. a. Anode b. Cathode c. Electrolyte
Introduction to Batteries Electrodes The electrode is the place where electron transfer occurs. An electrode is classified as either a cathode or an anode depending on the type of chemical reaction that occurs. If an oxidation reaction occurs at an electrode (oxidation being the loss of electrons), then the electrode is classified as an anode. If a reduction reaction occurs at an electrode (reduction being the gain of electrons), then the electrode is classified as a cathode.
How Batteries Work? Redox Reaction Reactions in which electrons are transferred are called oxidation-reduction (or "redox") reactions. There are two parts to these changes: one atom must lose electrons and another atom must gain them. These two parts are described by the terms "oxidation" and "reduction".
How Batteries Work? Oxidation Originally, a substance was said to be oxidized when it reacted with oxygen. Today, the word "oxidized" is still used for those situations, but now we have a much broader second meaning for these words. Today, the broader sense of the word oxidation is defined as losing electrons. When a substance loses electrons, its charge will increase. This may feel a bit backwards, but remember that electrons are negative. If an atom loses electrons, it is losing negative particles—so its charge will increase.
How Batteries Work? Reduction When an atom or an ion gains electrons, the charge on the particle goes down. For example, if a sulfur atom whose charge is zero (0)(0) gains two electrons, its charge becomes (−2).the charge on the particle is reduced by the gain of electrons. Remember that electrons have a negative charge, so gaining electrons will result in the charge decreasing. The word reduction is defined to mean gaining electrons and the reduction of charge.
How Batteries Work?
Introduction to Batteries
Types of Cells 2 Types of Battery Cells -Primary Cells – (Non-rechargeable) Once the cell gives up all its energy, the chemical cannot react again. -Secondary Cells - (Rechargeable) Once the cell gives up all its energy, the chemical reaction that causes it to lose energy can be reversed by a charger, giving it more energy to use in circuits.
Primary Cells • -Primary cells have high density and get discharged slowly. Since there is no fluid inside these cells they are also known as dry cells. The internal resistance is high and the chemical reaction is irreversible. Its initial cost is cheap and also primary cells are easy to use. -Chemical energy is converted to electrical energy, but electrical energy cannot be converted back into chemical energy.
Secondary Cells • -Secondary cells have low energy density and are made of molten salts and wet cells. The internal resistance is low and the chemical reaction is reversible. Its initial cost is high and is a little complicated to use when compared to the primary cell. -Chemical energy is converted to electrical energy, and electrical energy is converted back into chemical energy.
How Batteries Work? Battery Internal Resistance The internal resistance (IR) of a battery is defined as the opposition to the flow of current within the battery. There are two basic components that impact the internal resistance of a battery; they are electronic resistance and ionic resistance. The electronic resistance plus the ionic resistance will be referred to as the total effective resistance.
How Batteries Work? Basic component that impact the internal resistance Electronic resistance - The electronic resistance encompasses the resistivity of the actual materials such as the metal covers and internal components; as well as, how well these materials make contact with each other. Ionic resistance - is the resistance to current flow within the battery due to various electrochemical factors such as, electrolyte conductivity, ion mobility and electrode surface area.
Effects of internal battery resistance. • A battery with low internal resistance delivers high current on demand. High resistance causes the battery to heat up and the voltage to drop. The equipment cuts off, leaving energy behind.
Batteries Common Battery Sizes AA Batteries - Also known as “double A”, AA batteries are by far the most popular battery size. Used in a multitude of applications, these batteries can be purchased almost anywhere. AAA Batteries - Also known as “triple A”, AAA batteries are the second most popular kind of battery. They are used for small toys, thermometers, and calculators. AAAA Batteries - These small but powerful batteries are often used in LED penlights and laser pointers. They are also frequently used in small devices such as glucose meters, hearing aid remote controls, and powered computer styluses. C Batteries - Many automatic hand sanitizer dispensers require the use of these 1.5V batteries. Perfect for heavy-duty applications where batteries require frequent use, you can be sure that your device is operating with safe, reliable power. These batteries are also frequently used in restrooms that utilize battery powered flush sensors.
Batteries Common Battery Sizes D Batteries - Powering most automatic paper towel dispensers, D batteries are essential. These large, bulky batteries provide hours of use and power a variety of commercial, heavy-use devices, like hands-free sensor faucets, air freshener systems, and soap dispensers. 9V Batteries - Generally known for its rectangular shape, the 9-Volt battery is used in devices that require high voltage and lots of power. CR123A Batteries - Packed with power, this battery is frequently used for tactical equipment, wireless security, and home automation. 23A Batteries - This small battery is commonly used in small devices such as garage door openers, specialized medical devices, watches, or remotes. CR2032 Batteries - At 3 volts, the CR2032 battery is commonly used in watches, calculators, toys, and different medical devices. These batteries provide long-lasting, reliable power and have a very high weight-to- power ratio.
Batteries Common Battery Sizes 12 Volt Battery - Large, block-shaped, and heavy, this battery provides hundreds of amps of electrical current and is commonly used in cars and other industrial equipment. Compared to some of the bigger voltage batteries, it might not make sense that a car is able to function with only 12 volts while other heavy equipment requires much more than just 12 volts. This is because heavy equipment and cordless power tools all require a charge after their energy has been depleted. Cars use an alternator which acts as a generator to keep the car's battery powered, eliminating the need for an external charger.
Battery Types
Battery Types
Battery Types
Battery Types
Battery Types
Rechargeable Battery Types
Rechargeable Battery Types
Rechargeable Battery Types
Rechargeable Battery Types

Recommandé

Electric Current and Building Analogy
Electric Current and Building AnalogyElectric Current and Building Analogy
Electric Current and Building AnalogyKANNAN
 
Deicing of transmisson line by dielectrc losses
Deicing of transmisson line by dielectrc lossesDeicing of transmisson line by dielectrc losses
Deicing of transmisson line by dielectrc lossesbindasbhabani
 
Sources of energy
Sources of energySources of energy
Sources of energymanraaj singh
 
Hydroelectric energy
Hydroelectric energyHydroelectric energy
Hydroelectric energyZachary Wheeler
 
Unit 1 Ccurrent Electricity
Unit 1 Ccurrent ElectricityUnit 1 Ccurrent Electricity
Unit 1 Ccurrent ElectricityBruce Coulter
 
Potential difference and power.ppt
Potential difference and power.pptPotential difference and power.ppt
Potential difference and power.pptmrmeredith
 
Electrical Technology by nanajee
Electrical Technology by nanajeeElectrical Technology by nanajee
Electrical Technology by nanajeeSasi Institute of Technology & Engineering
 
Analysis of fuzzy logic controller based bi-directional DC-DC converter for b...
Analysis of fuzzy logic controller based bi-directional DC-DC converter for b...Analysis of fuzzy logic controller based bi-directional DC-DC converter for b...
Analysis of fuzzy logic controller based bi-directional DC-DC converter for b...IJECEIAES
 

Recommandé

Electric Current and Building Analogy
Electric Current and Building AnalogyElectric Current and Building Analogy
Electric Current and Building AnalogyKANNAN
 
Deicing of transmisson line by dielectrc losses
Deicing of transmisson line by dielectrc lossesDeicing of transmisson line by dielectrc losses
Deicing of transmisson line by dielectrc lossesbindasbhabani
 
Sources of energy
Sources of energySources of energy
Sources of energymanraaj singh
 
Hydroelectric energy
Hydroelectric energyHydroelectric energy
Hydroelectric energyZachary Wheeler
 
Unit 1 Ccurrent Electricity
Unit 1 Ccurrent ElectricityUnit 1 Ccurrent Electricity
Unit 1 Ccurrent ElectricityBruce Coulter
 
Potential difference and power.ppt
Potential difference and power.pptPotential difference and power.ppt
Potential difference and power.pptmrmeredith
 
Electrical Technology by nanajee
Electrical Technology by nanajeeElectrical Technology by nanajee
Electrical Technology by nanajeeSasi Institute of Technology & Engineering
 
Analysis of fuzzy logic controller based bi-directional DC-DC converter for b...
Analysis of fuzzy logic controller based bi-directional DC-DC converter for b...Analysis of fuzzy logic controller based bi-directional DC-DC converter for b...
Analysis of fuzzy logic controller based bi-directional DC-DC converter for b...IJECEIAES
 
Atomic theory
Atomic theoryAtomic theory
Atomic theorymariekristine
 
9707 w14 ms_13
9707 w14 ms_139707 w14 ms_13
9707 w14 ms_13Saadia Riaz
 
Solar energy and Acid Rain Presentation
Solar energy and Acid Rain PresentationSolar energy and Acid Rain Presentation
Solar energy and Acid Rain PresentationMaheep Chhabra
 
Solar energy
Solar energySolar energy
Solar energyRamaraj90033
 
Light Dimmers
Light Dimmers Light Dimmers
Light Dimmers Rohith Ramachandran
 
Solar Mobile Charger Report
Solar Mobile Charger ReportSolar Mobile Charger Report
Solar Mobile Charger ReportShravan SilentStar
 
Solar power Plant
Solar power PlantSolar power Plant
Solar power PlantAdama Science and Technology University
 
Blade-less Wind Turbine
Blade-less Wind TurbineBlade-less Wind Turbine
Blade-less Wind TurbineNeel Patel
 
Refraction of light in lenses
Refraction of light in lensesRefraction of light in lenses
Refraction of light in lensesMartinGeraldine
 
Wet & dry batteries
Wet & dry batteriesWet & dry batteries
Wet & dry batteriesmunibz04
 
Presentation on electronic battery
Presentation on electronic batteryPresentation on electronic battery
Presentation on electronic batteryNaman Nandurkar
 
Sanoop
SanoopSanoop
Sanoopajaychakkuvila
 
Paper battery report.docx
Paper battery report.docxPaper battery report.docx
Paper battery report.docxRakesh P
 
Paper battery report.docx
Paper battery report.docxPaper battery report.docx
Paper battery report.docxRakesh P
 
Electronics in daily life
Electronics in daily lifeElectronics in daily life
Electronics in daily lifeSARITHA REDDY
 
Battery
BatteryBattery
BatteryAsanka Lakmal Morawaka
 
Battery
BatteryBattery
BatteryAsanka Lakmal Morawaka
 
2.10 producing electrical energies batteries
2.10 producing electrical energies batteries2.10 producing electrical energies batteries
2.10 producing electrical energies batteriesmrrayner
 
case study.docx
case study.docxcase study.docx
case study.docxMuskaanBella
 
Bab 9 bing
Bab 9 bingBab 9 bing
Bab 9 bingSukir Glosy
 
battery.pdf
battery.pdfbattery.pdf
battery.pdfDarkGenius1
 
Primary and Secondary Batteries with example.pptx
Primary and Secondary Batteries with example.pptxPrimary and Secondary Batteries with example.pptx
Primary and Secondary Batteries with example.pptxkowshalya21
 

Contenu connexe

Tendances

Solar energy and Acid Rain Presentation
Solar energy and Acid Rain PresentationSolar energy and Acid Rain Presentation
Solar energy and Acid Rain PresentationMaheep Chhabra
 
Blade-less Wind Turbine
Blade-less Wind TurbineBlade-less Wind Turbine
Blade-less Wind TurbineNeel Patel
 
Refraction of light in lenses
Refraction of light in lensesRefraction of light in lenses
Refraction of light in lensesMartinGeraldine
 

Tendances (9)

Atomic theory
Atomic theoryAtomic theory
Atomic theory
 
9707 w14 ms_13
9707 w14 ms_139707 w14 ms_13
9707 w14 ms_13
 
Solar energy and Acid Rain Presentation
Solar energy and Acid Rain PresentationSolar energy and Acid Rain Presentation
Solar energy and Acid Rain Presentation
 
Solar energy
Solar energySolar energy
Solar energy
 
Light Dimmers
Light Dimmers Light Dimmers
Light Dimmers
 
Solar Mobile Charger Report
Solar Mobile Charger ReportSolar Mobile Charger Report
Solar Mobile Charger Report
 
Solar power Plant
Solar power PlantSolar power Plant
Solar power Plant
 
Blade-less Wind Turbine
Blade-less Wind TurbineBlade-less Wind Turbine
Blade-less Wind Turbine
 
Refraction of light in lenses
Refraction of light in lensesRefraction of light in lenses
Refraction of light in lenses
 

Similaire à Batteries.pptx

Wet & dry batteries
Wet & dry batteriesWet & dry batteries
Wet & dry batteriesmunibz04
 
Presentation on electronic battery
Presentation on electronic batteryPresentation on electronic battery
Presentation on electronic batteryNaman Nandurkar
 
Paper battery report.docx
Paper battery report.docxPaper battery report.docx
Paper battery report.docxRakesh P
 
Paper battery report.docx
Paper battery report.docxPaper battery report.docx
Paper battery report.docxRakesh P
 
Electronics in daily life
Electronics in daily lifeElectronics in daily life
Electronics in daily lifeSARITHA REDDY
 
2.10 producing electrical energies batteries
2.10 producing electrical energies batteries2.10 producing electrical energies batteries
2.10 producing electrical energies batteriesmrrayner
 
Primary and Secondary Batteries with example.pptx
Primary and Secondary Batteries with example.pptxPrimary and Secondary Batteries with example.pptx
Primary and Secondary Batteries with example.pptxkowshalya21
 
Battery Technology.pptx
Battery Technology.pptxBattery Technology.pptx
Battery Technology.pptxAprameya2
 
An Introduction to the Various Kinds of Electronic Components and How They Work
An Introduction to the Various Kinds of Electronic Components and How They WorkAn Introduction to the Various Kinds of Electronic Components and How They Work
An Introduction to the Various Kinds of Electronic Components and How They Workexpess-technology
 
Lecture 2 construction of lead acid battery 2
Lecture 2 construction of lead acid battery 2Lecture 2 construction of lead acid battery 2
Lecture 2 construction of lead acid battery 2manfredhaule
 
ev module 3.ppt.and notes of EV to kno6a
ev module 3.ppt.and notes of EV to kno6aev module 3.ppt.and notes of EV to kno6a
ev module 3.ppt.and notes of EV to kno6aAshokM259975
 

Similaire à Batteries.pptx (20)

Wet & dry batteries
Wet & dry batteriesWet & dry batteries
Wet & dry batteries
 
Presentation on electronic battery
Presentation on electronic batteryPresentation on electronic battery
Presentation on electronic battery
 
Sanoop
SanoopSanoop
Sanoop
 
Paper battery report.docx
Paper battery report.docxPaper battery report.docx
Paper battery report.docx
 
Paper battery report.docx
Paper battery report.docxPaper battery report.docx
Paper battery report.docx
 
Electronics in daily life
Electronics in daily lifeElectronics in daily life
Electronics in daily life
 
Battery
BatteryBattery
Battery
 
Battery
BatteryBattery
Battery
 
2.10 producing electrical energies batteries
2.10 producing electrical energies batteries2.10 producing electrical energies batteries
2.10 producing electrical energies batteries
 
case study.docx
case study.docxcase study.docx
case study.docx
 
Bab 9 bing
Bab 9 bingBab 9 bing
Bab 9 bing
 
battery.pdf
battery.pdfbattery.pdf
battery.pdf
 
Primary and Secondary Batteries with example.pptx
Primary and Secondary Batteries with example.pptxPrimary and Secondary Batteries with example.pptx
Primary and Secondary Batteries with example.pptx
 
Battery Technology.pptx
Battery Technology.pptxBattery Technology.pptx
Battery Technology.pptx
 
Battery
BatteryBattery
Battery
 
An Introduction to the Various Kinds of Electronic Components and How They Work
An Introduction to the Various Kinds of Electronic Components and How They WorkAn Introduction to the Various Kinds of Electronic Components and How They Work
An Introduction to the Various Kinds of Electronic Components and How They Work
 
Lecture 2 construction of lead acid battery 2
Lecture 2 construction of lead acid battery 2Lecture 2 construction of lead acid battery 2
Lecture 2 construction of lead acid battery 2
 
Battery fuel cell terms
Battery fuel cell termsBattery fuel cell terms
Battery fuel cell terms
 
Unit_4_NC.pptx
Unit_4_NC.pptxUnit_4_NC.pptx
Unit_4_NC.pptx
 
ev module 3.ppt.and notes of EV to kno6a
ev module 3.ppt.and notes of EV to kno6aev module 3.ppt.and notes of EV to kno6a
ev module 3.ppt.and notes of EV to kno6a
 

Dernier

mini mental status format.docx
mini mental status format.docxmini mental status format.docx
mini mental status format.docxPoojaSen20
 
Sanyam Choudhary Chemistry practical.pdf
Sanyam Choudhary Chemistry practical.pdfSanyam Choudhary Chemistry practical.pdf
Sanyam Choudhary Chemistry practical.pdfsanyamsingh5019
 
Advanced Views - Calendar View in Odoo 17
Advanced Views - Calendar View in Odoo 17Advanced Views - Calendar View in Odoo 17
Advanced Views - Calendar View in Odoo 17Celine George
 
The basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptxThe basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptxheathfieldcps1
 
Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991
Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991
Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991RKavithamani
 
CARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptxCARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptxGaneshChakor2
 
Interactive Powerpoint_How to Master effective communication
Interactive Powerpoint_How to Master effective communicationInteractive Powerpoint_How to Master effective communication
Interactive Powerpoint_How to Master effective communicationnomboosow
 
18-04-UA_REPORT_MEDIALITERAСY_INDEX-DM_23-1-final-eng.pdf
18-04-UA_REPORT_MEDIALITERAСY_INDEX-DM_23-1-final-eng.pdf18-04-UA_REPORT_MEDIALITERAСY_INDEX-DM_23-1-final-eng.pdf
18-04-UA_REPORT_MEDIALITERAСY_INDEX-DM_23-1-final-eng.pdfssuser54595a
 
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...EduSkills OECD
 
Web & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdfWeb & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdfJayanti Pande
 
Arihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdfArihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdfchloefrazer622
 
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptxPOINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptxSayali Powar
 
Measures of Central Tendency: Mean, Median and Mode
Measures of Central Tendency: Mean, Median and ModeMeasures of Central Tendency: Mean, Median and Mode
Measures of Central Tendency: Mean, Median and ModeThiyagu K
 
A Critique of the Proposed National Education Policy Reform
A Critique of the Proposed National Education Policy ReformA Critique of the Proposed National Education Policy Reform
A Critique of the Proposed National Education Policy ReformChameera Dedduwage
 
microwave assisted reaction. General introduction
microwave assisted reaction. General introductionmicrowave assisted reaction. General introduction
microwave assisted reaction. General introductionMaksud Ahmed
 
Contemporary philippine arts from the regions_PPT_Module_12 [Autosaved] (1).pptx
Contemporary philippine arts from the regions_PPT_Module_12 [Autosaved] (1).pptxContemporary philippine arts from the regions_PPT_Module_12 [Autosaved] (1).pptx
Contemporary philippine arts from the regions_PPT_Module_12 [Autosaved] (1).pptxRoyAbrique
 
Separation of Lanthanides/ Lanthanides and Actinides
Separation of Lanthanides/ Lanthanides and ActinidesSeparation of Lanthanides/ Lanthanides and Actinides
Separation of Lanthanides/ Lanthanides and ActinidesFatimaKhan178732
 
Student login on Anyboli platform.helpin
Student login on Anyboli platform.helpinStudent login on Anyboli platform.helpin
Student login on Anyboli platform.helpinRaunakKeshri1
 
Beyond the EU: DORA and NIS 2 Directive's Global Impact
Beyond the EU: DORA and NIS 2 Directive's Global ImpactBeyond the EU: DORA and NIS 2 Directive's Global Impact
Beyond the EU: DORA and NIS 2 Directive's Global ImpactPECB
 

Dernier (20)

mini mental status format.docx
mini mental status format.docxmini mental status format.docx
mini mental status format.docx
 
Sanyam Choudhary Chemistry practical.pdf
Sanyam Choudhary Chemistry practical.pdfSanyam Choudhary Chemistry practical.pdf
Sanyam Choudhary Chemistry practical.pdf
 
Advanced Views - Calendar View in Odoo 17
Advanced Views - Calendar View in Odoo 17Advanced Views - Calendar View in Odoo 17
Advanced Views - Calendar View in Odoo 17
 
The basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptxThe basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptx
 
Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991
Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991
Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991
 
CARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptxCARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptx
 
Interactive Powerpoint_How to Master effective communication
Interactive Powerpoint_How to Master effective communicationInteractive Powerpoint_How to Master effective communication
Interactive Powerpoint_How to Master effective communication
 
18-04-UA_REPORT_MEDIALITERAСY_INDEX-DM_23-1-final-eng.pdf
18-04-UA_REPORT_MEDIALITERAСY_INDEX-DM_23-1-final-eng.pdf18-04-UA_REPORT_MEDIALITERAСY_INDEX-DM_23-1-final-eng.pdf
18-04-UA_REPORT_MEDIALITERAСY_INDEX-DM_23-1-final-eng.pdf
 
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
 
Web & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdfWeb & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdf
 
Arihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdfArihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdf
 
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptxPOINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
 
Measures of Central Tendency: Mean, Median and Mode
Measures of Central Tendency: Mean, Median and ModeMeasures of Central Tendency: Mean, Median and Mode
Measures of Central Tendency: Mean, Median and Mode
 
A Critique of the Proposed National Education Policy Reform
A Critique of the Proposed National Education Policy ReformA Critique of the Proposed National Education Policy Reform
A Critique of the Proposed National Education Policy Reform
 
INDIA QUIZ 2024 RLAC DELHI UNIVERSITY.pptx
INDIA QUIZ 2024 RLAC DELHI UNIVERSITY.pptxINDIA QUIZ 2024 RLAC DELHI UNIVERSITY.pptx
INDIA QUIZ 2024 RLAC DELHI UNIVERSITY.pptx
 
microwave assisted reaction. General introduction
microwave assisted reaction. General introductionmicrowave assisted reaction. General introduction
microwave assisted reaction. General introduction
 
Contemporary philippine arts from the regions_PPT_Module_12 [Autosaved] (1).pptx
Contemporary philippine arts from the regions_PPT_Module_12 [Autosaved] (1).pptxContemporary philippine arts from the regions_PPT_Module_12 [Autosaved] (1).pptx
Contemporary philippine arts from the regions_PPT_Module_12 [Autosaved] (1).pptx
 
Separation of Lanthanides/ Lanthanides and Actinides
Separation of Lanthanides/ Lanthanides and ActinidesSeparation of Lanthanides/ Lanthanides and Actinides
Separation of Lanthanides/ Lanthanides and Actinides
 
Student login on Anyboli platform.helpin
Student login on Anyboli platform.helpinStudent login on Anyboli platform.helpin
Student login on Anyboli platform.helpin
 
Beyond the EU: DORA and NIS 2 Directive's Global Impact
Beyond the EU: DORA and NIS 2 Directive's Global ImpactBeyond the EU: DORA and NIS 2 Directive's Global Impact
Beyond the EU: DORA and NIS 2 Directive's Global Impact
 

Batteries.pptx

  • 2. Definition of Terms Electrolyte - is a chemical that allows an electrical charge to pass between the two terminals. Anode - where an oxidation reaction occurs. Cathode- it is said to be the electrode where reduction occurs.
  • 3. Definition of Terms Internal Resistance - The internal resistance (IR) of a battery is defined as the opposition to the flow of current within the battery.
  • 4. Introduction to Batteries Battery A battery is a device that converts chemical energy to electrical energy. A battery’s chemical reactions involve the flow of electrons from one material (electrode) to another via an external circuit. The flow of electrons generates an electric current, which can be used to perform work.
  • 5. Introduction to Batteries What Is Battery Electrolyte? The battery electrolyte is a solution inside batteries. Depending on the type of battery, it can be a liquid or paste-like substance. However, no matter the type of battery, the electrolyte serves the same purpose: it transports positively charged ions between the cathode and anode terminals. Electrolyte serves as catalyst to make a battery conductive by promoting the movement of ions from the cathode to the anode on charge and in reverse on discharge.
  • 6. Introduction to Batteries How Does Battery Electrolyte Work? A battery has three major components – the cathode, the anode, and an electrolyte that separates these two terminals. The electrolyte is a chemical that allows an electrical charge to pass between the two terminals. The electrolyte puts the chemicals required for the reaction in contact with the anode and cathode, therefore converting stored energy into usable electrical energy. This reaction provides power to the connected device, whether it’s a light, a vacuum, or an electric vehicle.
  • 7. Introduction to Batteries Battery Parts Cells are comprised of 3 essential components. a. Anode b. Cathode c. Electrolyte
  • 8. Introduction to Batteries Electrodes The electrode is the place where electron transfer occurs. An electrode is classified as either a cathode or an anode depending on the type of chemical reaction that occurs. If an oxidation reaction occurs at an electrode (oxidation being the loss of electrons), then the electrode is classified as an anode. If a reduction reaction occurs at an electrode (reduction being the gain of electrons), then the electrode is classified as a cathode.
  • 9. How Batteries Work? Redox Reaction Reactions in which electrons are transferred are called oxidation-reduction (or "redox") reactions. There are two parts to these changes: one atom must lose electrons and another atom must gain them. These two parts are described by the terms "oxidation" and "reduction".
  • 10. How Batteries Work? Oxidation Originally, a substance was said to be oxidized when it reacted with oxygen. Today, the word "oxidized" is still used for those situations, but now we have a much broader second meaning for these words. Today, the broader sense of the word oxidation is defined as losing electrons. When a substance loses electrons, its charge will increase. This may feel a bit backwards, but remember that electrons are negative. If an atom loses electrons, it is losing negative particles—so its charge will increase.
  • 11. How Batteries Work? Reduction When an atom or an ion gains electrons, the charge on the particle goes down. For example, if a sulfur atom whose charge is zero (0)(0) gains two electrons, its charge becomes (−2).the charge on the particle is reduced by the gain of electrons. Remember that electrons have a negative charge, so gaining electrons will result in the charge decreasing. The word reduction is defined to mean gaining electrons and the reduction of charge.
  • 14. Types of Cells 2 Types of Battery Cells -Primary Cells – (Non-rechargeable) Once the cell gives up all its energy, the chemical cannot react again. -Secondary Cells - (Rechargeable) Once the cell gives up all its energy, the chemical reaction that causes it to lose energy can be reversed by a charger, giving it more energy to use in circuits.
  • 15. Primary Cells • -Primary cells have high density and get discharged slowly. Since there is no fluid inside these cells they are also known as dry cells. The internal resistance is high and the chemical reaction is irreversible. Its initial cost is cheap and also primary cells are easy to use. -Chemical energy is converted to electrical energy, but electrical energy cannot be converted back into chemical energy.
  • 16. Secondary Cells • -Secondary cells have low energy density and are made of molten salts and wet cells. The internal resistance is low and the chemical reaction is reversible. Its initial cost is high and is a little complicated to use when compared to the primary cell. -Chemical energy is converted to electrical energy, and electrical energy is converted back into chemical energy.
  • 17.
  • 18.
  • 19. How Batteries Work? Battery Internal Resistance The internal resistance (IR) of a battery is defined as the opposition to the flow of current within the battery. There are two basic components that impact the internal resistance of a battery; they are electronic resistance and ionic resistance. The electronic resistance plus the ionic resistance will be referred to as the total effective resistance.
  • 20. How Batteries Work? Basic component that impact the internal resistance Electronic resistance - The electronic resistance encompasses the resistivity of the actual materials such as the metal covers and internal components; as well as, how well these materials make contact with each other. Ionic resistance - is the resistance to current flow within the battery due to various electrochemical factors such as, electrolyte conductivity, ion mobility and electrode surface area.
  • 21. Effects of internal battery resistance. • A battery with low internal resistance delivers high current on demand. High resistance causes the battery to heat up and the voltage to drop. The equipment cuts off, leaving energy behind.
  • 22. Batteries Common Battery Sizes AA Batteries - Also known as “double A”, AA batteries are by far the most popular battery size. Used in a multitude of applications, these batteries can be purchased almost anywhere. AAA Batteries - Also known as “triple A”, AAA batteries are the second most popular kind of battery. They are used for small toys, thermometers, and calculators. AAAA Batteries - These small but powerful batteries are often used in LED penlights and laser pointers. They are also frequently used in small devices such as glucose meters, hearing aid remote controls, and powered computer styluses. C Batteries - Many automatic hand sanitizer dispensers require the use of these 1.5V batteries. Perfect for heavy-duty applications where batteries require frequent use, you can be sure that your device is operating with safe, reliable power. These batteries are also frequently used in restrooms that utilize battery powered flush sensors.
  • 23. Batteries Common Battery Sizes D Batteries - Powering most automatic paper towel dispensers, D batteries are essential. These large, bulky batteries provide hours of use and power a variety of commercial, heavy-use devices, like hands-free sensor faucets, air freshener systems, and soap dispensers. 9V Batteries - Generally known for its rectangular shape, the 9-Volt battery is used in devices that require high voltage and lots of power. CR123A Batteries - Packed with power, this battery is frequently used for tactical equipment, wireless security, and home automation. 23A Batteries - This small battery is commonly used in small devices such as garage door openers, specialized medical devices, watches, or remotes. CR2032 Batteries - At 3 volts, the CR2032 battery is commonly used in watches, calculators, toys, and different medical devices. These batteries provide long-lasting, reliable power and have a very high weight-to- power ratio.
  • 24. Batteries Common Battery Sizes 12 Volt Battery - Large, block-shaped, and heavy, this battery provides hundreds of amps of electrical current and is commonly used in cars and other industrial equipment. Compared to some of the bigger voltage batteries, it might not make sense that a car is able to function with only 12 volts while other heavy equipment requires much more than just 12 volts. This is because heavy equipment and cordless power tools all require a charge after their energy has been depleted. Cars use an alternator which acts as a generator to keep the car's battery powered, eliminating the need for an external charger.