2.1.4 Mechanical advantage and disadvantage

    Cards (57)

    • Mechanical Advantage is the ratio of the force produced by a lever to the force required to move the load
    • What is the formula to calculate mechanical advantage?
      Effort arm / Load arm
    • Mechanical Advantage indicates how much a lever system amplifies force
    • A mechanical advantage of 3 means the effort required is reduced to one-third
    • What is the formula to calculate mechanical disadvantage?
      Load arm / Effort arm
    • Mechanical Advantage amplifies the force required to move a load.
      True
    • If the load arm is 4 meters and the effort arm is 2 meters, what is the mechanical disadvantage?
      2
    • What is the formula to calculate mechanical advantage?
      Effort arm / Load arm
    • Mechanical Advantage is calculated as Effort arm divided by Load arm
    • What is the definition of Load arm in a lever system?
      Fulcrum to load distance
    • A Mechanical Advantage of 3 means the effort required is reduced to one-third of the load.
      True
    • What is the formula for Mechanical Disadvantage?
      Load arm / Effort arm
    • Give an example of a lever system that uses Mechanical Disadvantage.
      Wheelbarrow
    • What is mechanical advantage?
      Ratio of force produced to effort
    • What is the formula for mechanical disadvantage?
      Load arm / Effort arm
    • What is the relationship between load, effort, and distance in lever systems?
      Mechanical advantage or disadvantage
    • What does a mechanical advantage of 3 mean in terms of effort required?
      Effort is reduced to one-third
    • Steps to calculate mechanical advantage
      1️⃣ Identify the effort arm
      2️⃣ Identify the load arm
      3️⃣ Divide the effort arm by the load arm
    • What is the purpose of the load arm in a lever system?
      Reduce the effort required
    • Mechanical disadvantage occurs when the load arm is longer than the effort arm.

      True
    • Match the lever system term with its description:
      Effort arm ↔️ Distance from fulcrum to effort
      Load arm ↔️ Distance from fulcrum to load
      Fulcrum ↔️ Pivot point of the lever
    • All levers provide a mechanical advantage.
      False
    • If the effort arm is 6 meters and the load arm is 2 meters, what is the mechanical advantage?
      3
    • Mechanical Disadvantage increases the effort required to move a load
    • Mechanical Disadvantage occurs when the load arm is longer than the effort
    • Mechanical Advantage is the ratio of the force produced by the lever to the force required to move the load
    • What is the formula to calculate Mechanical Advantage?
      Effort arm / Load arm
    • What is the definition of Effort arm in a lever system?
      Fulcrum to effort distance
    • Mechanical Advantage is the ratio of the force produced by a lever to the force required to move the load
    • What are the two types of ratios compared in a lever system?
      Mechanical Advantage and Disadvantage
    • Match the characteristic with the correct type of ratio:
      Definition ↔️ Ratio of force produced to force required ||| Ratio of force required to force produced
      Formula ↔️ Effort arm / Load arm ||| Load arm / Effort arm
      Effect ↔️ Reduces effort required ||| Increases effort required
    • Order the steps to explain the relationship between load, effort, and distance in lever systems:
      1️⃣ Define Mechanical Advantage
      2️⃣ Define Mechanical Disadvantage
      3️⃣ Explain the role of the fulcrum
      4️⃣ Describe the effect of effort arm on force
      5️⃣ Describe the effect of load arm on force
    • Mechanical disadvantage occurs when the effort required is greater than the load itself.

      True
    • What is an example of mechanical disadvantage in action?
      Using a wheelbarrow
    • If the effort arm is 6 meters and the load arm is 2 meters, the mechanical advantage is 3.

      True
    • What is the load arm in a lever system?
      Fulcrum to load distance
    • Match the characteristic with its corresponding advantage or disadvantage:
      Definition ↔️ Amplifies force to move load ||| Reduces force produced compared to effort
      Formula ↔️ Effort arm / Load arm ||| Load arm / Effort arm
      Effect ↔️ Reduces effort required ||| Increases effort required
    • What is the effect of a longer lever arm in sports?
      Generates more force
    • Mechanical Disadvantage occurs when the effort required is less than the load.
      False
    • In a lever system, the relationship between load, effort, and distance is captured by the concepts of mechanical advantage and mechanical disadvantage
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