1.3.2 Principle of Moments

    Cards (58)

    • What is the lever arm in the context of moments?
      Perpendicular distance from pivot
    • Understanding moments is crucial for analyzing situations such as levers.

      True
    • A seesaw is balanced when the clockwise moments equal the anticlockwise moments.

      True
    • If the lever arm is doubled to 4 m while the force remains 50 N, the resulting moment is 200 Nm.
    • What is the formula to calculate the moment?
      Force x Lever Arm
    • The mathematical expression for the Principle of Moments is: ∑ Clockwise Moments = ∑ Anticlockwise Moments.
    • Clockwise moments tend to rotate an object clockwise.

      True
    • Increasing the force applied to an object increases the moment proportionally.

      True
    • If a force of 50 N is applied at a lever arm of 2 m, what is the moment?
      100 Nm
    • In the formula for moment, the force is the strength of the push or pull applied.
    • In equilibrium, an object experiences no net force or net moment.

      True
    • The net moment in equilibrium must be equal to zero.
    • The formula for calculating the moment is: Moment = Force × Lever Arm.
    • The moment of a force is calculated by multiplying the force by the perpendicular distance
    • The formula for calculating the moment is: Moment = Force x Lever Arm
    • The Principle of Moments states that for an object to be in equilibrium, the total clockwise moments must equal the total anticlockwise moments.
    • If a force of 50 N is applied with a lever arm of 2 m, the resulting moment is 100 Nm.
    • If a force of 50 N is applied with a lever arm of 2 m, the moment is 100 Nm.
    • Increasing the force increases the moment proportionally.

      True
    • The Principle of Moments can be expressed mathematically as: \sum Clockwise Moments = \sum Anticlockwise Moments
    • What is the lever arm in relation to a pivot and force?
      Perpendicular distance from pivot to force
    • If the force is doubled while the lever arm remains the same, the moment doubles as well.

      True
    • What does the perpendicular distance refer to in the moment formula?
      Distance from pivot to force
    • Match the type of equilibrium with its description:
      Stable ↔️ Returns to original position after displacement
      Unstable ↔️ Moves away from original position
      Neutral ↔️ Stays in new location after displacement
    • Why is a balanced seesaw considered in equilibrium?
      Moments are equal
    • Match the type of moment with its description:
      Clockwise ↔️ Rotates object clockwise
      Anticlockwise ↔️ Rotates object anticlockwise
    • Increasing the lever arm also increases the moment of the force.
    • What happens to the moment if the force is doubled while the lever arm remains constant?
      It doubles
    • What is the effect of increasing the lever arm on the moment?
      Increases the moment
    • Equilibrium in physics means an object experiences no net force or net moment.

      True
    • What is an example of an object in equilibrium when the moments on both sides are equal?
      Balanced seesaw
    • The principle of moments states that the total clockwise moments must equal the total anticlockwise moments.
    • A moment measures the tendency of a force to cause rotation.
      True
    • What is the moment caused by child A at pivot A if the force is 300 N and the distance is 2 m?
      600 Nm
    • Doubling the force while keeping the lever arm constant doubles the moment.
      True
    • The lever arm is the perpendicular distance from the pivot to the line of action of the force.
      True
    • The Principle of Moments states that for equilibrium, clockwise moments must equal anticlockwise moments.

      True
    • What does the Principle of Moments state?
      Clockwise moments = anticlockwise moments
    • What happens to a seesaw if child A applies a moment of 300 Nm clockwise and child B applies a moment of 300 Nm anticlockwise?
      The seesaw is in equilibrium
    • Increasing the lever arm increases the moment
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