Podcast
Questions and Answers
What is the term for the time derivative of acceleration?
What is the term for the time derivative of acceleration?
- Pop
- Snap
- Crackle
- Jerk (correct)
Which term represents the time derivative of jerk?
Which term represents the time derivative of jerk?
- Velocity
- Snap (correct)
- Crackle
- Pop
What is the correct sequence of terms from acceleration to pop?
What is the correct sequence of terms from acceleration to pop?
- Crackle, Snap, Jerk, Acceleration, Pop
- Acceleration, Jerk, Snap, Crackle, Pop (correct)
- Snap, Crackle, Jerk, Acceleration, Pop
- Jerk, Acceleration, Snap, Crackle, Pop
Under what condition do the equations of motion work?
Under what condition do the equations of motion work?
Which term is the time derivative of crackle?
Which term is the time derivative of crackle?
Flashcards
Jerk
Jerk
The rate of change of acceleration over time.
Snap
Snap
The rate of change of jerk over time.
Crackle
Crackle
The rate of change of snap over time.
Pop
Pop
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Equations of Motion
Equations of Motion
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Study Notes
Instantaneous Acceleration
- Instantaneous acceleration is the rate of change of velocity at a specific point in time.
Agenda
- Jerk
- Snap
- Crackle
- Pop
- Equations of motion
Jerk
- Jerk is the time derivative of acceleration.
Snap
- The time derivative of jerk is called snap.
Crackle
- The time derivative of snap is crackle.
Pop
- Pop is the time derivative of crackle.
Equations of Motion
- The equations of displacement and velocity are called equations of motion.
- Equation of Motion (Velocity): v = váµ¢ + at
- v = velocity
- a = acceleration
- váµ¢ = initial velocity
- t = time
- Equation of Motion (Displacement): d = vᵢt + ½at²
- d = displacement
- váµ¢ = initial velocity
- a = acceleration
- t = time
- These equations only work if acceleration is constant.
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Description
This quiz covers the concept of instantaneous acceleration and its derivatives: jerk, snap, crackle, and pop. It also includes the equations of motion related to displacement and velocity, emphasizing their application under constant acceleration. Test your knowledge on these key physics principles.
