2661 views

Lec 4 - Displacement from Time and Velocity Example

Displacement from Time and Velocity Example Worked example of calculating displacement from time and velocity

Video is embedded from external source so embedding is not available.

Video is embedded from external source so download is not available.

Here is the next lecture for this course

No content is added to this lecture.

Go to course:

This video is a part of a lecture series from of khan

Lecture list for this course

Lec 1 - Introduction to Vectors and Scalars

Lec 2 - Calculating Average Velocity or Speed

Lec 3 - Solving for Time

Lec 5 - Acceleration

Lec 6 - Newton's First Law of Motion

Lec 7 - Newton's Second Law of Motion

Lec 8 - Newton's Third Law of Motion

Lec 9 - Airbus A380 Take-off Time

Lec 10 - Airbus A380 Take-off Distance

Lec 11 - Why Distance is Area under Velocity-Time Line

Lec 12 - Average Velocity for Constant Acceleration

Lec 13 - Acceleration of Aircraft Carrier Takeoff

Lec 14 - Race Cars with Constant Speed Around Curve

Lec 15 - Introduction to Gravity

Lec 16 - Mass and Weight Clarification

Lec 17 - Gravity for Astronauts in Orbit

Lec 18 - Would a Brick or Feather Fall Faster

Lec 19 - Deriving Displacement as a Function of Time, Acceleration and Initial Velocity

Lec 20 - Plotting Projectile Displacement, Acceleration, and Velocity

Lec 21 - Projectile Height Given Time

Lec 22 - Deriving Max Projectile Displacement Given Time

Lec 23 - Impact Velocity From Given Height

Lec 24 - Visualizing Vectors in 2 Dimensions

Lec 25 - Projectile at an Angle

Lec 26 - Different Way to Determine Time in Air

Lec 27 - Launching and Landing on Different Elevations

Lec 28 - Total Displacement for Projectile

Lec 29 - Total Final Velocity for Projectile

Lec 30 - Correction to Total Final Velocity for Projectile

Lec 31 - Projectile on an Incline

Lec 32 - Unit Vectors and Engineering Notation

Lec 33 - Clearing the Green Monster at Fenway

Lec 34 - Green Monster at Fenway Part 2

Lec 35 - Optimal angle for a projectile part 1

Lec 36 - Optimal angle for a projectile part 2 - Hangtime

Lec 37 - Optimal angle for a projectile part 3 - Horizontal distance as a function of angle (and speed)

How to Find the Optimal Angle for a Projectile Using Calculus Part 4

Lec 39 - Normal Force and Contact Force

Lec 40 - Normal Force in an Elevator

Lec 41 - IInclined Plane Force Componentsnclined Plane Force Components

Lec 42 - Ice Accelerating Down an Incline

Force of Friction Keeping the Block Stationary

Lec 44 - Correction to Force of Friction Keeping the Block Stationary

Lec 45 - Force of Friction Keeping Velocity Constant

Lec 46 - Intuition on Static and Kinetic Friction Comparisons

Lec 47 - Static and Kinetic Friction Example

Lec 48 - Introduction to Tension

Lec 49 - Tension (part 2)

Lec 50 - Tension in an accelerating system and pie in the face

Lec 51 - Moving pulley problem (part 1)

Lec 52 - Moving pulley problem (part 2)

Lec 53 - Introduction to Momentum

Lec 54 - Momentum: Ice skater throws a ball

Lec 55 - 2-dimensional momentum problem

Lec 56 - 2-dimensional momentum problem (part 2)

Lec 57 - Introduction to work and energy

Lec 58 - Work and Energy (part 2)

Lec 59 - Conservation of Energy

Lec 60 - Work/Energy problem with Friction

Lec 61 - Introduction to mechanical advantage

Lec 62 - Mechanical Advantage (part 2)

Lec 63 - Mechanical Advantage (part 3)

Lec 64 - Center of Mass

Lec 65 - Introduction to Torque

Lec 66 - Moments

Lec 67 - Moments (part 2)

Lec 68 - Unit Vector Notation

Lec 69 - Unit Vector Notation (part 2)

Lec 70 - Projectile Motion with Unit Vectors

Lec 71 - Projectile Motion with Unit Vectors (part 2)

Lec 72 - Projectile Motion with Ordered Set Notation

Lec 73 - Centripetal Force and Acceleration Intuition

Lec 74 - Visual Understanding of Centripetal Acceleration Formula

Lec 75 - Relationship between angular velocity and speed

Lec 76 - Calculus proof of centripetal acceleration formula

Lec 77 - Loop De Loop Question

Lec 78 - Loop De Loop Answer part 1

Lec 79 - Loop De Loop Answer part 2

Lec 80 - Acceleration Due to Gravity at the Space Station

Lec 81 - Space Station Speed in Orbit

Lec 82 - Conservation of angular momemtum

Lec 83 - Introduction to Newton's Law of Gravitation

Lec 84 - Gravitation (part 2)

Lec 85 - Intro to springs and Hooke's Law

Lec 86 - Potential energy stored in a spring

Lec 87 - Spring potential energy example (mistake in math)

Lec 88 - Introduction to Harmonic Motion

Lec 89 - Harmonic Motion Part 2 (calculus)

Lec 90 - Harmonic Motion Part 3 (no calculus)

Lec 91 - Fluids (part 1)

Lec 92 - Fluids (part 2)

Lec 93 - Fluids (part 3)

Lec 94 - Fluids (part 4)

Lec 95 - Fluids (part 5)

Lec 96 - Fluids (part 6)

Lec 97 - Fluids (part 7)

Lec 98 - Fluids (part 8)

Lec 99 - Fluids (part 9)

Lec 100 - Fluids (part 10)

Lec 101 - Fluids (part 11)