1.4 Reference Frames and Relative Motion

    Cards (34)

    • What is a reference frame?
      A coordinate system
    • Match the reference frame with its description:
      Train ↔️ Origin: Inside the train ||| Orientation of Axes: Parallel to train tracks
      Ground ↔️ Origin: Fixed location on ground ||| Orientation of Axes: Aligned with map directions
    • Objects in an inertial frame follow Newton's laws of motion.

      True
    • A non-inertial reference frame is a reference frame that is accelerating.
    • Match the property with the type of reference frame:
      Acceleration = 0 ↔️ Inertial Reference Frame
      Additional forces present ↔️ Non-inertial Reference Frame
    • How is relative velocity calculated between two objects in different reference frames?
      Add or subtract velocities
    • What is the formula for calculating relative velocity using vector addition?
      Velocity of Object - Velocity of Observer's Reference Frame
    • Vector addition is used to calculate relative velocity between different reference frames.

      True
    • If an object is moving at 20 m/s east in the ground reference frame, and the observer is moving at 10 m/s west in the train reference frame, what is the relative velocity of the object with respect to the train?
      30 m/s east
    • A reference frame provides a consistent basis for determining position and velocity.
    • Inertial reference frames are accelerating.
      False
    • Give an example of an inertial reference frame.
      Stationary observer on Earth
    • Relative velocity is calculated using the formula: Vobj - Vobs, where Vobs is the velocity of the observer.
    • Steps for calculating relative velocity using vector addition
      1️⃣ Identify the velocities of the objects and reference frames
      2️⃣ Convert velocities to vectors with components
      3️⃣ Add the velocity components: Relative velocity = Vobj - Vobs
    • To calculate relative velocity, vector addition is used.
    • What are some applications of reference frames and relative motion?
      Navigation, sports, weather forecasting
    • There are two main types of reference frames: inertial and non-inertial.

      True
    • Relative velocity is the velocity of an object with respect to an observer in a different reference frame.
    • An inertial reference frame is a reference frame that is not accelerating.
    • What is an example of an inertial reference frame?
      Stationary frame on Earth
    • Objects in a non-inertial frame do not follow Newton's laws of motion.
      True
    • Relative velocity is the velocity of an object with respect to an observer in a different reference frame.
    • Vector addition is used to find relative velocity between two objects in different reference frames.

      True
    • What is the relative velocity of an object moving at 20 m/s east with respect to a train moving at 10 m/s west?
      30 m/s east
    • The relative velocity between two objects in different reference frames is calculated using vector addition
    • A reference frame consists of an origin and a set of axes.

      True
    • What are the two main types of reference frames?
      Inertial and non-inertial
    • In non-inertial reference frames, Newton's laws require considering additional forces such as centrifugal or Coriolis force.
    • Give an example of a non-inertial reference frame.
      Observer in accelerating car
    • Match the reference frame type with its property:
      Inertial Reference Frame ↔️ Acceleration is 0
      Non-inertial Reference Frame ↔️ Newton's laws require additional forces
    • If Car A is moving at 20 m/s east and Car B is moving at 10 m/s east, what is the relative velocity of Car A with respect to Car B?
      10 m/s east
    • Vector addition for relative velocities involves converting velocities to vectors with components.

      True
    • If Car A is moving at (10, 0) m/s on the ground and Car B is moving at (5, 0) m/s, what is the relative velocity of Car A with respect to Car B?
      (5, 0) m/s
    • Vector addition is essential for solving problems involving relative motion between objects in different reference frames.
      True
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