Physics SL
Physics SL
5
Chapters
329
Notes
Theme A - Space, Time & Motion
Theme A - Space, Time & Motion
Theme B - The Particulate Nature Of Matter
Theme B - The Particulate Nature Of Matter
Theme C - Wave Behaviour
Theme C - Wave Behaviour
Theme D - Fields
Theme D - Fields
Theme E - Nuclear & Quantum Physics
Theme E - Nuclear & Quantum Physics
IB Resources
Theme A - Space, Time & Motion
Physics SL
Physics SL

Theme A - Space, Time & Motion

Understanding Horizontal & Vertical Motion in Physics

Word Count Emoji
628 words
Reading Time Emoji
4 mins read
Updated at Emoji
Last edited on 5th Nov 2024

Table of content

Key concepts

  • Assumptions
    • Earth's surface is locally flat.
    • No friction or air resistance.
    • Gravity only acts vertically.
  • Horizontal Motion
    • Horizontal acceleration is zero (no air resistance).
    • Horizontal velocity doesn't change.
    • Horizontal distance = horizontal speed x time.
      • Real-world example: A frisbee thrown in space would continue to move horizontally at a constant speed, because there's no friction or gravity to change its speed or direction.
  • Vertical Motion
    • The distance (s) travelled varies with time (t) as s ∝ t².
    • If time doubles, distance quadruples.
      • Real-world example: Drop a stone from a building, it will fall faster over time due to gravity. If it falls 1 meter in the first second, it'll fall 4 meters in the next second (not considering air resistance).
  • Independent Motions
    • Horizontal and vertical motions are independent.
    • Analyze them separately, then combine to find overall velocity and displacement.
  • Maximum Range: To get the furthest horizontal distance, a ball should be thrown at an angle, not straight up or horizontally.

Understanding trajectories

  • The motion of an object launched at an angle can be split into horizontal and vertical components
    • Horizontal speed: u cos θ
    • Initial vertical speed: u sin θ
  • The object's trajectory forms a parabola due to varying vertical position (with t²) and constant horizontal position (with t).
  • To analyze the motion
    • Resolve initial velocity into horizontal and vertical components.
    • Use kinematic equations for calculations.

Working with problems

  • Practice solving problems by using the ideas in the text and diagrams. Understand the components of motion and how they affect the overall trajectory.

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IB Resources
Theme A - Space, Time & Motion
Physics SL
Physics SL

Theme A - Space, Time & Motion

Understanding Horizontal & Vertical Motion in Physics

Word Count Emoji
628 words
Reading Time Emoji
4 mins read
Updated at Emoji
Last edited on 5th Nov 2024

Table of content

Key concepts

  • Assumptions
    • Earth's surface is locally flat.
    • No friction or air resistance.
    • Gravity only acts vertically.
  • Horizontal Motion
    • Horizontal acceleration is zero (no air resistance).
    • Horizontal velocity doesn't change.
    • Horizontal distance = horizontal speed x time.
      • Real-world example: A frisbee thrown in space would continue to move horizontally at a constant speed, because there's no friction or gravity to change its speed or direction.
  • Vertical Motion
    • The distance (s) travelled varies with time (t) as s ∝ t².
    • If time doubles, distance quadruples.
      • Real-world example: Drop a stone from a building, it will fall faster over time due to gravity. If it falls 1 meter in the first second, it'll fall 4 meters in the next second (not considering air resistance).
  • Independent Motions
    • Horizontal and vertical motions are independent.
    • Analyze them separately, then combine to find overall velocity and displacement.
  • Maximum Range: To get the furthest horizontal distance, a ball should be thrown at an angle, not straight up or horizontally.

Understanding trajectories

  • The motion of an object launched at an angle can be split into horizontal and vertical components
    • Horizontal speed: u cos θ
    • Initial vertical speed: u sin θ
  • The object's trajectory forms a parabola due to varying vertical position (with t²) and constant horizontal position (with t).
  • To analyze the motion
    • Resolve initial velocity into horizontal and vertical components.
    • Use kinematic equations for calculations.

Working with problems

  • Practice solving problems by using the ideas in the text and diagrams. Understand the components of motion and how they affect the overall trajectory.

Unlock the Full Content! File Is Locked Emoji

Dive deeper and gain exclusive access to premium files of Physics SL. Subscribe now and get closer to that 45 🌟