Physics HL
Physics HL
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 HL
Physics HL

Theme A - Space, Time & Motion

Unraveling the slippery secrets of friction

Updated at Emoji
Last edited on 5th Nov 2024

Table of content

Introduction

Ever gone skiing or suddenly slipped on an icy path? The 'villain' behind these scenes is none other than friction, a force that plays hide and seek between two surfaces in contact.

Let's get experimental 🧪

Imagine a setup where

  • A metal object sits on a wooden block.
  • One end of the metal is connected to a spring balance (which measures force in Newtons). Let's call this a newton-meter.
  • The other end of this metal links up to a winch (kinda like a crane).
  • The entire wooden block sits on rollers, ready to slide.
  • When everything is relaxed, the spring balance reads a big fat zero.

What happens when the game begins?

  • When the winch starts its magic, it reels in the string attached to the wood.
  • Initially, both metal and wood are like two best friends, not letting go of each other, hence no movement.
  • But as the pull gets stronger, there comes a point where the metal is like, "Bye, Wood!" and they start to slide away from each other. Interestingly, less force is then needed to keep this slide show going.

The frictional roller coaster 🎢

A graph (Figure 26(b)) would show that

  • Initially, as force increases, the wood doesn't move.
  • Then, BOOM! At a certain force, it starts moving. But then the force required drops.
  • Occasionally, the platform has moments of "stick-slip" where it pauses and then suddenly moves again.

Two's company in friction's world 🤝

Based on observations, we can describe two types of friction

  • Static Friction: When there's no movement between surfaces (like the metal and wood initially).
  • Dynamic Friction: The kind you experience when things are on the move (like the metal sliding over the wood).

Almost every surface pair will display these two friction types.

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

Theme A - Space, Time & Motion

Unraveling the slippery secrets of friction

Updated at Emoji
Last edited on 5th Nov 2024

Table of content

Introduction

Ever gone skiing or suddenly slipped on an icy path? The 'villain' behind these scenes is none other than friction, a force that plays hide and seek between two surfaces in contact.

Let's get experimental 🧪

Imagine a setup where

  • A metal object sits on a wooden block.
  • One end of the metal is connected to a spring balance (which measures force in Newtons). Let's call this a newton-meter.
  • The other end of this metal links up to a winch (kinda like a crane).
  • The entire wooden block sits on rollers, ready to slide.
  • When everything is relaxed, the spring balance reads a big fat zero.

What happens when the game begins?

  • When the winch starts its magic, it reels in the string attached to the wood.
  • Initially, both metal and wood are like two best friends, not letting go of each other, hence no movement.
  • But as the pull gets stronger, there comes a point where the metal is like, "Bye, Wood!" and they start to slide away from each other. Interestingly, less force is then needed to keep this slide show going.

The frictional roller coaster 🎢

A graph (Figure 26(b)) would show that

  • Initially, as force increases, the wood doesn't move.
  • Then, BOOM! At a certain force, it starts moving. But then the force required drops.
  • Occasionally, the platform has moments of "stick-slip" where it pauses and then suddenly moves again.

Two's company in friction's world 🤝

Based on observations, we can describe two types of friction

  • Static Friction: When there's no movement between surfaces (like the metal and wood initially).
  • Dynamic Friction: The kind you experience when things are on the move (like the metal sliding over the wood).

Almost every surface pair will display these two friction types.

Unlock the Full Content! File Is Locked Emoji

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