Lead Acid Batteries Lead peroxide plates (cathode) Dilute sulphuric acid. Lead sulphate plates (anode) CONSISTS OF AN ELECTROLYTE, DILUTE SULPHURIC ACID AND TWO ELECTRODES WHICH ARE LEAD SULPHATE, BEING THE ANODE (+), AND LEAD PEROXIDE BEING THE CATHODE (-). • WHEN IN USE CHEMICAL REACTIONS TAKES PLACE BETWEEN THE PLATES AND THE ELECTROLYTE AND PRODUCES AN ELECTRIC CURRENT THAT IS DISCHARGED INTO THE CIRCUIT. DURING REACTION ACID COMBINES WITH PLATES AND RELEASES ELECTRONS. • DURING RECHARGING ELECTRONS ARE FORCED BACK AND THE ACID RETURNS BACK TO THE ELECTROLYTE AND MAKES IT A STRONG
Lead Acid Batteries Lead peroxide plates (cathode) Dilute sulphuric acid. Lead sulphate plates (anode) CONSISTS OF AN ELECTROLYTE, DILUTE SULPHURIC ACID AND TWO ELECTRODES WHICH ARE LEAD SULPHATE, BEING THE ANODE (+), AND LEAD PEROXIDE BEING THE CATHODE (-). • WHEN IN USE CHEMICAL REACTIONS TAKES PLACE BETWEEN THE PLATES AND THE ELECTROLYTE AND PRODUCES AN ELECTRIC CURRENT THAT IS DISCHARGED INTO THE CIRCUIT. DURING REACTION ACID COMBINES WITH PLATES AND RELEASES ELECTRONS. • DURING RECHARGING ELECTRONS ARE FORCED BACK AND THE ACID RETURNS BACK TO THE ELECTROLYTE AND MAKES IT A STRONG
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Describe the figure below about lead-acids batteries
Transcribed Image Text:Lead Acid Batteries
Lead peroxide
plates (cathode)
Dilute sulphuric acid
Lead sulphate
plates (anode)
• CONSISTS OF AN ELECTROLYTE, DILUTE SULPHURIC ACID AND TWO
ELECTRODES WHICH ARE LEAD SULPHATE, BEING THE ANODE (+),
AND LEAD PEROXIDE BEING THE CATHODE (-).
• WHEN IN USE CHEMICAL REACTIONS TAKES PLACE BETWEEN THE
PLATES AND THE ELECTROLYTE AND PRODUCES AN ELECTRIC
CURRENT THAT IS DISCHARGED INTO THE CIRCUIT.
DURING REACTION ACID COMBINES WITH PLATES AND RELEASES
ELECTRONS.
. DURING RECHARGING ELECTRONS ARE FORCED BACK AND THE ACID
RETURNS BACK TO THE ELECTROLYTE AND MAKES IT A STRONG
SOLUTION AGAIN.
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