Projectile Motion Conceptual Warm-Up

Slides:

Advertisements

Similar presentations

The Equations of Motion

Advertisements

Projectile Calculations Notes

Acceleration Page 11 of Scientific Notebook Section 2.2.

Acceleration. The concepts of this lesson will allow you to: Explain the terms that are associated with motion and acceleration. Analyze acceleration.

Projectile Motion Copy all info in the red boxes..

Introduction to Projectile Motion

One Dimensional Projectile Motion Post-Activity Units: Projectile - an object for which the only force acting upon it is gravity. The force of air resistance.

Projectile Motion Pt. 1 Week.

Physics Lesson 6 Projectile Motion

Warm up Simplify: -(2x + 3) + 4(x + 2) A – 2 – ( 3 + a) Solve: 13m – 22 = 9m -6.

Lab 5 Projectile Motion Eleanor Roosevelt High School Mr. Chin-Sung Lin.

Solving Uniform Acceleration Problems. Equations for Uniformly Accelerated Motion variable not involved - d variable not involved - a variable not involved.

Physics Lecture 14 Instructor: John H. Hamilton. Last Lecture Review This week – Position – Change in position wrt time – Change in velocity wrt time.

Horizontal Projectiles Physics Level 1. Vector Resolution The study of vectors allows for breaking a single vector into components: – the vertical y component.

Projectile Motion.

Kinematic Equations Chapter 2 Section 2. Accelerated Motion  Motion with constant acceleration is what we will mostly look at in this class  Example:

Sept 15 th Kinematics questions from yesterday Quiz Wednesday.

Kinematics. Topic Overview Kinematics is used to analyze the motion of an object. We use terms such as displacement, distance, velocity, speed, acceleration,

1D Kinematics Equations and Problems. Velocity The rate at an object changes position relative to something stationary. X VT ÷ x ÷

Mechanics (Kinematics)

How do we solve a free fall problem with kinematics?

Projectile Motion AP Physics B.

Cart on Ramp Lab.

Mechanics 1 : Kinematics

The horizontal and vertical components of a projectile in motion depend upon the initial velocity. True False.

Projectile Motion AP Physics B.

Do Now: I want to drop a 25 gram marble on top of an ant that will have a vertical displacement “h”. Assuming it was dropped from rest, write an expression.

Projectile Motion AP Physics.

Vector Resolution and Projectile Motion

Aim: How can we define 2D projectile motion?

Kinematic Equations Used in situations with uniform acceleration.

Linear Motion, Free Fall, and Vectors Combined!

Describing Motion Draw a detailed diagram like figure 2-9 that represents the response to conceptual example 2-4. Objective(s)/SWBAT (Students will be.

Vertical Projectile Motion

Projectile Motion Read page 134 in the text. Describe what is happening in figure 7-1. Students will be able to: Describe projectile motion Use Kinematic.

Projectile Motion UCONN Physics.

Two-Dimensional Motion

1.5 – Projectile Motion (pg )

Projectile Motion.

Motion with constant acceleration

Projectile Motion AP Physics C.

Projectile motion Projectile Motion Subject to Gravity Assumptions:

Projectile Motion AP Physics B.

Projectile Motion AP Physics B.

International Arab Baccalaureate

Projectile Motion AP Physics C.

Projectile Motion Practice

Projectile Motion AP Physics C.

Kinematics in Two Dimensions

Free Fall and Projectile Motion

Projectile Motion Time to Review.

Projectile Motion Honors Physics.

Projectile Motion AP Physics B.

Projectile Motion AP Physics B.

The Kinematics Equations

Projectile Motion.

1.5 – Projectile Motion (pg )

Projectile Motion AP Physics 1.

Projectile Motion AP Physics.

Motion in Two Dimensions

Projectile Motion AP Physics B.

Projectile Motion AP Physics C.

Projectile Motion AP Physics B.

Projectile Motion Honors Physics.

Projectile Motion AP Physics C.

Projectile Motion AP Physics 1.

Projectile Motion.

Projectile Motion Physics 101.

Projectile Motion and Relative Velocity

Conceptual Dynamics Part II: Kinematics Chapter 2

Presentation transcript:

Projectile Motion Conceptual Warm-Up Give three real-world examples of projectile motion. In what direction(s) does a projectile change velocity? Explain why the velocity changes. Which component(s) of projectile motion have acceleration? Explain why this acceleration exists. Does the acceleration you describe in question #3 ever change in magnitude? Explain your answer. For which component of motion are v and vo the same? Explain why these velocities are the same. For which component of motion are v and vo different? Explain why these velocities are different. Explain how the final overall velocity of a projectile is determined upon its landing on the ground. Why is a two-column chart needed when setting up a projectile motion problem? What variables are entered into the two-column chart referenced in question #8? List all of them. Why may the kinematic equations in the box on page 27 be used to solve projectile motion problems?