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When the load is further from the fulcrum than the effort, it:
- a)Moves slower
- b)Moves faster
- c)Difficult to move
- d)Easier to move
Correct answer is option 'D'. Can you explain this answer?
Verified Answer
When the load is further from the fulcrum than the effort, it:a)Moves ...
The correct answer is 'C' or "Easier to move."
When the load is further away from the fulcrum than the effort, it means the load is on the long arm of the lever and the effort is on the short arm of the lever. This means the load will be easier to move, as a smaller force will be required to move it a larger distance. It will be less effort to move the load.
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Most Upvoted Answer
When the load is further from the fulcrum than the effort, it:a)Moves ...
The correct answer is 'C' or "Easier to move."
When the load is further away from the fulcrum than the effort, it means the load is on the long arm of the lever and the effort is on the short arm of the lever. This means the load will be easier to move, as a smaller force will be required to move it a larger distance. It will be less effort to move the load.
When the load is further away from the fulcrum than the effort, it means the load is on the long arm of the lever and the effort is on the short arm of the lever. This means the load will be easier to move, as a smaller force will be required to move it a larger distance. It will be less effort to move the load.
Community Answer
When the load is further from the fulcrum than the effort, it:a)Moves ...
The Principle of Levers
The principle of levers is a fundamental concept in physics that helps us understand how objects can be moved or lifted with less effort. A lever is a simple machine consisting of a rigid bar that can rotate around a fixed point called the fulcrum.
There are three main components of a lever:
1. Fulcrum: The fixed point around which the lever rotates.
2. Load: The object being moved or lifted.
3. Effort: The force applied to move or lift the load.
Understanding the Relationship
The distance between the load and the fulcrum, as well as the distance between the effort and the fulcrum, play a crucial role in determining the ease or difficulty of moving the load. When the load is further from the fulcrum than the effort, the lever is said to be in a mechanical advantage position.
Mechanical Advantage
When the load is further from the fulcrum than the effort, the lever provides a mechanical advantage. This means that the effort applied to one end of the lever is magnified at the other end, making it easier to move the load. In other words, a small effort can move a larger load.
Explanation of the Correct Answer
The correct answer to the given question is option 'D' - Easier to move. When the load is further from the fulcrum than the effort, the lever is in a mechanical advantage position. This means that the effort required to move the load is reduced, making it easier to move.
Example
To better understand this concept, let's consider an everyday example of a see-saw. The fulcrum is located in the middle, with two seats on either end. When a heavier person sits closer to the fulcrum and a lighter person sits further from the fulcrum, the lighter person can easily lift the heavier person. This is because the lighter person exerts more effort at a greater distance from the fulcrum, while the heavier person exerts less effort at a shorter distance.
In this example, the load (heavier person) is further from the fulcrum than the effort (lighter person), resulting in a mechanical advantage position. Thus, the lighter person can move the heavier person with less effort.
Conclusion
In summary, when the load is further from the fulcrum than the effort, the lever is in a mechanical advantage position. This means that the effort required to move the load is reduced, making it easier to move. Understanding the principle of levers helps us comprehend the mechanics behind many everyday objects and machines.
The principle of levers is a fundamental concept in physics that helps us understand how objects can be moved or lifted with less effort. A lever is a simple machine consisting of a rigid bar that can rotate around a fixed point called the fulcrum.
There are three main components of a lever:
1. Fulcrum: The fixed point around which the lever rotates.
2. Load: The object being moved or lifted.
3. Effort: The force applied to move or lift the load.
Understanding the Relationship
The distance between the load and the fulcrum, as well as the distance between the effort and the fulcrum, play a crucial role in determining the ease or difficulty of moving the load. When the load is further from the fulcrum than the effort, the lever is said to be in a mechanical advantage position.
Mechanical Advantage
When the load is further from the fulcrum than the effort, the lever provides a mechanical advantage. This means that the effort applied to one end of the lever is magnified at the other end, making it easier to move the load. In other words, a small effort can move a larger load.
Explanation of the Correct Answer
The correct answer to the given question is option 'D' - Easier to move. When the load is further from the fulcrum than the effort, the lever is in a mechanical advantage position. This means that the effort required to move the load is reduced, making it easier to move.
Example
To better understand this concept, let's consider an everyday example of a see-saw. The fulcrum is located in the middle, with two seats on either end. When a heavier person sits closer to the fulcrum and a lighter person sits further from the fulcrum, the lighter person can easily lift the heavier person. This is because the lighter person exerts more effort at a greater distance from the fulcrum, while the heavier person exerts less effort at a shorter distance.
In this example, the load (heavier person) is further from the fulcrum than the effort (lighter person), resulting in a mechanical advantage position. Thus, the lighter person can move the heavier person with less effort.
Conclusion
In summary, when the load is further from the fulcrum than the effort, the lever is in a mechanical advantage position. This means that the effort required to move the load is reduced, making it easier to move. Understanding the principle of levers helps us comprehend the mechanics behind many everyday objects and machines.
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When the load is further from the fulcrum than the effort, it:a)Moves slowerb)Moves fasterc)Difficult to moved)Easier to moveCorrect answer is option 'D'. Can you explain this answer?
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When the load is further from the fulcrum than the effort, it:a)Moves slowerb)Moves fasterc)Difficult to moved)Easier to moveCorrect answer is option 'D'. Can you explain this answer? for Class 5 2024 is part of Class 5 preparation. The Question and answers have been prepared according to the Class 5 exam syllabus. Information about When the load is further from the fulcrum than the effort, it:a)Moves slowerb)Moves fasterc)Difficult to moved)Easier to moveCorrect answer is option 'D'. Can you explain this answer? covers all topics & solutions for Class 5 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for When the load is further from the fulcrum than the effort, it:a)Moves slowerb)Moves fasterc)Difficult to moved)Easier to moveCorrect answer is option 'D'. Can you explain this answer?.
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