2.10 Circular Motion

    Cards (66)

    • What force causes an object to move in a circular path?
      Centripetal force
    • The centrifugal force acts outward, away from the center
    • Match the variable with its unit:
      Tangential Velocity ↔️ m/s
      Angular Velocity ↔️ rad/s
      Centripetal Acceleration ↔️ m/s²
      Frequency ↔️ Hz
    • The period and frequency in circular motion are inversely proportional.

      True
    • The formula for angular velocity in circular motion is \(\omega = \frac{v}{r}\), where \(r\) is the radius
    • The period of an object in circular motion is inversely proportional to its frequency
    • Centripetal acceleration acts inward towards the center of the circular path.
      True
    • The centrifugal force is a real force acting outward during circular motion.
      False
    • Centripetal acceleration acts inward towards the center of the circular path.

      True
    • According to Newton's Second Law, the centripetal force in circular motion is given by F_c = ma_c
    • What is the centripetal force in circular motion according to Newton's Second Law?
      Fc=F_{c} =mv2r \frac{mv^{2}}{r}
    • What is the value of the centripetal force needed for a car with a mass of 1000 kg moving at 20 m/s on a track with a radius of 50 m?
      8000 N
    • What is the frequency of an object that completes 2 revolutions in 10 seconds?
      0.2 Hz
    • The centrifugal force is a real force experienced by objects in circular motion.
      False
    • Centripetal acceleration is the acceleration directed towards the center of a circular path.

      True
    • Centripetal acceleration is the acceleration directed towards the center
    • What is tangential acceleration in circular motion?
      Change in tangential velocity
    • What is the formula for centripetal force in circular motion?
      Fc=F_{c} =mv2r \frac{mv^{2}}{r}
    • The centripetal force depends on the mass, velocity, and the radius
    • The formula to calculate centripetal force is F_c
    • What is the direction of the centripetal force in circular motion?
      Towards the center
    • What does tangential velocity measure in circular motion?
      Speed along circumference
    • Order the variables in circular motion based on their relationships:
      1️⃣ Radius
      2️⃣ Angular Velocity
      3️⃣ Centripetal Acceleration
      4️⃣ Tangential Velocity
      5️⃣ Frequency
      6️⃣ Period
    • Tangential velocity in circular motion is given by \(v = \frac{2\pi r}{T}\), where \(T\) represents the period
    • Match the variable with its formula in circular motion:
      Tangential Velocity ↔️ \(v = \frac{2\pi r}{T}\)
      Angular Velocity ↔️ \(\omega = \frac{v}{r}\)
      Centripetal Acceleration ↔️ \(a_c = \frac{v^2}{r}\)
    • The centrifugal force is a real force experienced in circular motion.
      False
    • The centripetal force exists physically, while the centrifugal force is an apparent force.
      True
    • The period is the time for one complete revolution
    • What is the formula for centripetal acceleration?
      ac=a_{c} =v2r \frac{v^{2}}{r}
    • Frequency is inversely proportional to period in circular motion.
      True
    • Centripetal acceleration is directed towards the center of the circular path.

      True
    • Match the type of acceleration with its effect on the object's motion:
      Tangential Acceleration ↔️ Speeds up or slows down object
      Centripetal Acceleration ↔️ Maintains constant speed
    • Centripetal acceleration causes the direction of velocity to change while maintaining a constant speed
    • Match the type of acceleration with its effect on the object's motion:
      Tangential Acceleration ↔️ Speeds up or slows down object
      Centripetal Acceleration ↔️ Maintains constant speed
    • In circular motion, the radius is measured in meters.

      True
    • In the formula for centripetal force, \(v\) represents the tangential velocity.
    • The period in circular motion is the time it takes for an object to complete one full revolution.
    • In circular motion, the force that causes an object to move in a circular path is called the centripetal force.
    • In circular motion, the speed of an object along its circular path is called the tangential velocity.
    • What is the formula for calculating centripetal acceleration?
      ac=a_{c} =v2r \frac{v^{2}}{r}
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