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Explaining Projectile Motion and Kinematic Equations for Kids

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Explaining Projectile Motion and Kinematic Equations for Kids
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reagan maughan

@reaganmaughan

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A comprehensive guide to projectile motion kinematic equations explained, focusing on motion graphs and acceleration concepts in physics.

  • The guide covers fundamental concepts of projectile motion including initial and final positions, velocity components, and time relationships
  • Detailed analysis of various motion graphs including distance-time, velocity-time, and acceleration-time representations
  • Special emphasis on understanding velocity vs time graphs and their interpretations
  • Exploration of constant acceleration in kinematics physics and its graphical representations
  • Mathematical relationships between displacement, velocity, and acceleration are thoroughly examined
  • Key focus on the vertical motion aspects, particularly the significance of zero vertical velocity at the highest point

10/5/2023

117

Unit 1 -
projectile motion
kinematic equation
Kinematics *key take aways
Final position
initial
✓ position
Vox Vo cos
Voy - Vo sing
= tan (v

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Projectile Motion and Kinematics Fundamentals

This comprehensive page explores the fundamental concepts of projectile motion and kinematic equations. The content covers various aspects of motion analysis through graphical representations and mathematical relationships.

Definition: Projectile motion involves the movement of an object under the influence of gravity while moving both horizontally and vertically.

Vocabulary: Kinematics refers to the branch of physics dealing with motion of objects without consideration of the forces causing the motion.

Example: In velocity-time graphs, the area under the curve represents displacement, while the slope indicates acceleration.

Highlight: The time of motion remains identical for both horizontal (x-axis) and vertical (y-axis) components in projectile motion.

Quote: "Zero vertical velocity occurs at the highest point of the projectile's path"

The page details several key mathematical relationships:

  • The kinematic equation: xf = xo + vot + ½at²
  • Velocity components: Vox = Vo cos θ and Voy = Vo sin θ
  • The relationship between velocity components: v = √(vx² + vy²)

Special attention is given to graphical analysis:

  1. Distance vs. Time graphs: showing constant and changing velocity regions
  2. Velocity vs. Time graphs: demonstrating acceleration through slope analysis
  3. Acceleration vs. Time graphs: illustrating constant acceleration scenarios

The vertical motion component is emphasized with ay = -9.8 m/s², highlighting the constant acceleration due to gravity.

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Explaining Projectile Motion and Kinematic Equations for Kids

user profile picture

reagan maughan

@reaganmaughan

·

2 Followers

Follow

A comprehensive guide to projectile motion kinematic equations explained, focusing on motion graphs and acceleration concepts in physics.

  • The guide covers fundamental concepts of projectile motion including initial and final positions, velocity components, and time relationships
  • Detailed analysis of various motion graphs including distance-time, velocity-time, and acceleration-time representations
  • Special emphasis on understanding velocity vs time graphs and their interpretations
  • Exploration of constant acceleration in kinematics physics and its graphical representations
  • Mathematical relationships between displacement, velocity, and acceleration are thoroughly examined
  • Key focus on the vertical motion aspects, particularly the significance of zero vertical velocity at the highest point

10/5/2023

117

 

12th

 

AP Physics 1

9

Unit 1 -
projectile motion
kinematic equation
Kinematics *key take aways
Final position
initial
✓ position
Vox Vo cos
Voy - Vo sing
= tan (v

Projectile Motion and Kinematics Fundamentals

This comprehensive page explores the fundamental concepts of projectile motion and kinematic equations. The content covers various aspects of motion analysis through graphical representations and mathematical relationships.

Definition: Projectile motion involves the movement of an object under the influence of gravity while moving both horizontally and vertically.

Vocabulary: Kinematics refers to the branch of physics dealing with motion of objects without consideration of the forces causing the motion.

Example: In velocity-time graphs, the area under the curve represents displacement, while the slope indicates acceleration.

Highlight: The time of motion remains identical for both horizontal (x-axis) and vertical (y-axis) components in projectile motion.

Quote: "Zero vertical velocity occurs at the highest point of the projectile's path"

The page details several key mathematical relationships:

  • The kinematic equation: xf = xo + vot + ½at²
  • Velocity components: Vox = Vo cos θ and Voy = Vo sin θ
  • The relationship between velocity components: v = √(vx² + vy²)

Special attention is given to graphical analysis:

  1. Distance vs. Time graphs: showing constant and changing velocity regions
  2. Velocity vs. Time graphs: demonstrating acceleration through slope analysis
  3. Acceleration vs. Time graphs: illustrating constant acceleration scenarios

The vertical motion component is emphasized with ay = -9.8 m/s², highlighting the constant acceleration due to gravity.

Can't find what you're looking for? Explore other subjects.

Knowunity is the # 1 ranked education app in five European countries

Knowunity was a featured story by Apple and has consistently topped the app store charts within the education category in Germany, Italy, Poland, Switzerland and United Kingdom. Join Knowunity today and help millions of students around the world.

Ranked #1 Education App

Download in

Google Play

Download in

App Store

Knowunity is the # 1 ranked education app in five European countries

4.9+

Average App Rating

15 M

Students use Knowunity

#1

In Education App Charts in 12 Countries

950 K+

Students uploaded study notes

Still not sure? Look at what your fellow peers are saying...

iOS User

I love this app so much [...] I recommend Knowunity to everyone!!! I went from a C to an A with it :D

Stefan S, iOS User

The application is very simple and well designed. So far I have found what I was looking for :D

SuSSan, iOS User

Love this App ❤️, I use it basically all the time whenever I'm studying