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In order to achieve maximum heat dissipation, the fin should be designed in such a way that:
- a)It should have maximum lateral surface at the root side of the fin
- b)It should have maximum lateral surface towards the tip side of the fin
- c)It should have maximum lateral surface near the centre of the fin
- d)It should have minimum lateral surface near the centre of the fin
Correct answer is option 'A'. Can you explain this answer?
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Maximum Heat Dissipation and Fin Design
The design of a fin plays a crucial role in determining the maximum heat dissipation capability of a system. Fins are commonly used in various heat transfer applications to enhance the heat dissipation process.
A fin is a extended surface that is attached to a heat-generating component to increase the surface area available for heat transfer. The primary purpose of a fin is to facilitate efficient heat dissipation by increasing the rate at which heat is transferred from the component to the surrounding medium, such as air or a liquid coolant.
Several factors affect the heat dissipation capability of a fin, including its size, shape, material, and orientation. However, one of the most critical factors is the lateral surface area of the fin.
The lateral surface area of a fin refers to the surface area perpendicular to the direction of heat flow. A larger lateral surface area allows for a greater contact area between the fin and the surrounding medium, facilitating more efficient heat transfer. Therefore, to achieve maximum heat dissipation, the fin should be designed in such a way that it has the maximum lateral surface area.
Among the given options, option 'A' states that the fin should have maximum lateral surface at the root side of the fin. This design choice is based on the understanding that the root side of the fin is in direct contact with the heat-generating component. By maximizing the lateral surface area at the root side, the fin can effectively absorb and transfer heat from the component.
Option 'A' is the correct answer because it ensures that the fin is optimized for efficient heat transfer. By maximizing the lateral surface area at the root side, the fin can effectively absorb and transfer heat from the component. This design choice allows for better utilization of the available surface area and improves the overall heat dissipation capability of the system.
In conclusion, to achieve maximum heat dissipation, the fin should be designed in such a way that it has maximum lateral surface at the root side. This design choice allows for efficient heat transfer from the heat-generating component to the surrounding medium. By optimizing the fin design, the overall heat dissipation capability of the system can be significantly enhanced.
Introduction
The design of a fin plays a crucial role in determining the maximum heat dissipation capability of a system. Fins are commonly used in various heat transfer applications to enhance the heat dissipation process.
The Purpose of a Fin
A fin is a extended surface that is attached to a heat-generating component to increase the surface area available for heat transfer. The primary purpose of a fin is to facilitate efficient heat dissipation by increasing the rate at which heat is transferred from the component to the surrounding medium, such as air or a liquid coolant.
Factors Affecting Heat Dissipation
Several factors affect the heat dissipation capability of a fin, including its size, shape, material, and orientation. However, one of the most critical factors is the lateral surface area of the fin.
Influence of Lateral Surface Area
The lateral surface area of a fin refers to the surface area perpendicular to the direction of heat flow. A larger lateral surface area allows for a greater contact area between the fin and the surrounding medium, facilitating more efficient heat transfer. Therefore, to achieve maximum heat dissipation, the fin should be designed in such a way that it has the maximum lateral surface area.
Choice of Fin Design
Among the given options, option 'A' states that the fin should have maximum lateral surface at the root side of the fin. This design choice is based on the understanding that the root side of the fin is in direct contact with the heat-generating component. By maximizing the lateral surface area at the root side, the fin can effectively absorb and transfer heat from the component.
Advantages of Option 'A'
Option 'A' is the correct answer because it ensures that the fin is optimized for efficient heat transfer. By maximizing the lateral surface area at the root side, the fin can effectively absorb and transfer heat from the component. This design choice allows for better utilization of the available surface area and improves the overall heat dissipation capability of the system.
Conclusion
In conclusion, to achieve maximum heat dissipation, the fin should be designed in such a way that it has maximum lateral surface at the root side. This design choice allows for efficient heat transfer from the heat-generating component to the surrounding medium. By optimizing the fin design, the overall heat dissipation capability of the system can be significantly enhanced.
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In order to achieve maximum heat dissipation, the fin should be designed in such a way that:a)It should have maximum lateral surface at the root side of the finb)It should have maximum lateral surface towards the tip side of the finc)It should have maximum lateral surface near the centre of the find)It should have minimum lateral surface near the centre of the finCorrect answer is option 'A'. Can you explain this answer?
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In order to achieve maximum heat dissipation, the fin should be designed in such a way that:a)It should have maximum lateral surface at the root side of the finb)It should have maximum lateral surface towards the tip side of the finc)It should have maximum lateral surface near the centre of the find)It should have minimum lateral surface near the centre of the finCorrect answer is option 'A'. Can you explain this answer? for Mechanical Engineering 2024 is part of Mechanical Engineering preparation. The Question and answers have been prepared according to the Mechanical Engineering exam syllabus. Information about In order to achieve maximum heat dissipation, the fin should be designed in such a way that:a)It should have maximum lateral surface at the root side of the finb)It should have maximum lateral surface towards the tip side of the finc)It should have maximum lateral surface near the centre of the find)It should have minimum lateral surface near the centre of the finCorrect answer is option 'A'. Can you explain this answer? covers all topics & solutions for Mechanical Engineering 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for In order to achieve maximum heat dissipation, the fin should be designed in such a way that:a)It should have maximum lateral surface at the root side of the finb)It should have maximum lateral surface towards the tip side of the finc)It should have maximum lateral surface near the centre of the find)It should have minimum lateral surface near the centre of the finCorrect answer is option 'A'. Can you explain this answer?.
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