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Post a LessonAnswered on 22 Feb Learn CBSE/Class 6/Science/Electricity And Circuits
Sadika
An electric cell, also known as a voltaic cell or a galvanic cell, is a device that converts chemical energy into electrical energy. It consists of two electrodes (usually made of different metals or materials) immersed in an electrolyte solution. The chemical reactions taking place at the electrodes generate an electric potential difference between them, leading to the flow of electric current through an external circuit connected to the cell.
The basic components of an electric cell include:
Electrodes: These are the conductive materials (usually metals or metal compounds) where the chemical reactions occur. There are typically two electrodes in an electric cell: the anode (negative electrode) and the cathode (positive electrode).
Electrolyte: This is the medium in which the electrodes are immersed. It is usually an aqueous solution or a paste containing ions that can participate in the chemical reactions occurring at the electrodes. The electrolyte allows the flow of ions between the electrodes, facilitating the chemical reactions and the flow of electric current.
Separator: In some types of cells, a separator is used to prevent direct contact between the electrodes while allowing ions to pass through. The separator helps maintain the integrity of the cell and prevents short circuits.
When a load (such as a light bulb or a motor) is connected to the electrodes, the chemical reactions at the electrodes drive the flow of electrons through the external circuit, producing an electric current that can perform useful work. The overall reaction in the cell results in the conversion of chemical energy stored in the reactants into electrical energy.
Electric cells are commonly used in various applications, including batteries for portable electronic devices, backup power supplies, and electrochemical sensors. They come in different sizes and configurations, ranging from small button cells used in wristwatches to large rechargeable batteries used in electric vehicles.
Answered on 22 Feb Learn CBSE/Class 6/Science/Electricity And Circuits
Sadika
A battery is a device that consists of one or more electric cells connected together to provide a source of electrical energy. It stores chemical energy and converts it into electrical energy through electrochemical reactions occurring within the cells. Batteries are commonly used to power a wide range of devices, from small electronics like watches and smartphones to larger appliances like cars and backup power systems.
Key components of a battery include:
Electric Cells: These are the individual units within the battery that generate electrical energy through chemical reactions. Each cell typically consists of two electrodes (anode and cathode) immersed in an electrolyte solution. When connected in series or parallel, multiple cells combine to form a battery.
Electrodes: The electrodes are conductive materials where the chemical reactions occur. During discharge (when the battery is in use), electrons flow from the negative electrode (anode) to the positive electrode (cathode) through an external circuit, generating electric current.
Electrolyte: This is the medium in which the electrodes are immersed. It contains ions that participate in the chemical reactions occurring at the electrodes. The electrolyte allows ions to move between the electrodes, facilitating the flow of charge and completing the electrical circuit.
Separator: In some battery designs, a separator is used to prevent direct contact between the electrodes while allowing ions to pass through. The separator helps maintain the integrity of the cell and prevents short circuits.
Batteries come in various types and sizes, each designed for specific applications and requirements. Common types of batteries include alkaline batteries, lead-acid batteries, lithium-ion batteries, nickel-metal hydride (NiMH) batteries, and rechargeable batteries. They can be disposable (primary batteries), meaning they are used once and then discarded, or rechargeable (secondary batteries), meaning they can be recharged and reused multiple times.
Overall, batteries play a crucial role in providing portable and reliable sources of electrical energy for countless devices and applications in everyday life, industry, transportation, and beyond.
Answered on 22 Feb Learn CBSE/Class 6/Science/Electricity And Circuits
Sadika
The main difference between a cell and a battery lies in their composition and function:
Composition:
Function:
In summary, while both cells and batteries generate electrical energy through chemical reactions, a cell refers to a single unit with electrodes and an electrolyte, whereas a battery refers to a collection of cells connected together to provide a source of electrical power.
Answered on 22 Feb Learn CBSE/Class 6/Science/Electricity And Circuits
Sadika
A cell stops producing electricity after some time primarily due to the depletion of reactants and the accumulation of reaction byproducts within the cell. Several factors contribute to this:
Consumption of Reactants: The chemical reactions that occur within a cell during its operation consume the reactants present in the electrodes and electrolyte. As these reactants are consumed, the rate of the chemical reactions decreases, leading to a reduction in the cell's ability to generate electrical energy.
Formation of Reaction Byproducts: As the cell operates, various chemical reactions take place at the electrodes, leading to the formation of reaction byproducts. These byproducts can accumulate over time and interfere with the functioning of the cell, hindering the movement of ions and electrons within the cell and reducing its efficiency.
Loss of Active Material: In some types of cells, such as rechargeable batteries, repeated charging and discharging cycles can lead to the degradation or loss of active materials in the electrodes. This degradation can result in a decrease in the cell's capacity and performance over time.
Internal Resistance: Over time, the internal resistance of the cell may increase due to factors such as electrode degradation, electrolyte depletion, and the formation of reaction byproducts. This increased resistance limits the flow of electrons within the cell, reducing its output voltage and overall efficiency.
Physical Deterioration: Physical deterioration of the cell components, such as corrosion of electrodes or degradation of separator materials, can also contribute to the decline in the cell's performance and its ability to produce electricity.
Eventually, as the depletion of reactants and the accumulation of reaction byproducts reach a critical point, the cell's ability to produce electricity diminishes to the extent that it becomes effectively depleted and unable to deliver a useful amount of electrical energy. At this point, the cell is considered to be at the end of its useful life and may need to be replaced or recharged, depending on its type and design.
Answered on 22 Feb Learn CBSE/Class 6/Science/Electricity And Circuits
Sadika
Connecting the wires directly between the two terminals of an electric cell can lead to potentially dangerous or damaging situations. Here are several reasons why it is not advisable to join the wires connected to the two terminals of an electric cell:
Short Circuit: Connecting the wires directly creates a short circuit, bypassing the intended load or device connected to the cell. This results in a sudden surge of current flowing through the wires, which can generate excessive heat and potentially damage the cell, wires, or other components.
Overheating: The short circuit caused by joining the wires can lead to rapid heating of the wires and surrounding materials due to the high current flow. This can pose a fire hazard, especially if the wires or nearby objects are flammable.
Cell Damage: Excessive current flowing through the cell can damage its internal components, such as electrodes and electrolyte, leading to reduced performance or complete failure of the cell. This can render the cell unusable and necessitate replacement.
Safety Hazard: The high current resulting from the short circuit can pose a safety risk to individuals handling the wires or nearby equipment. It can cause burns, electrical shocks, or other injuries if proper precautions are not taken.
Battery Explosion: In some cases, particularly with certain types of batteries, such as lithium-ion batteries, a short circuit can lead to thermal runaway and battery explosion. This occurs when the internal temperature of the battery rises uncontrollably, causing the electrolyte to decompose and release flammable gases, leading to a violent rupture of the battery casing.
To avoid these risks, it is essential to never directly connect the wires between the terminals of an electric cell or battery. Instead, always use the cell to power a load or device as intended, ensuring that proper connections are made and safety precautions are followed to prevent accidents or damage.
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