INTRODUCTION & RECTILINEAR KINEMATICS: CONTINUOUS MOTION (Sections 12.1 - 12.2). Today’s Objectives : Students will be able to find the kinematic quantities (position, displacement, velocity, and acceleration) of a particle traveling along a straight path. In-Class Activities :

ByNewtons First & Second Laws. by: Nayeli and Walter. Newtons First Law. describes motion produced by balanced forces.

ByNewtons First Law Newtons Second Law Newtons Third Law F=ma F= μmg F= μma F NET = F 1 + F 2 + F 3 … F fr F drag F app Force Tension Gravity Acceleration Coefficient of Drag/Friction. Gravitation & Kepler’s Laws. Kepler’s Laws.

ByForces and Motion. By Deena Jarwan , Abby Haugh , and Brandy Ordaz , Cade Shuck. Force. What is Force?

ByCHAPTER-11. Rolling, Torque, and Angular Momentum. Ch 11-2 Rolling as Translational and Rotation Combined. Rolling Motion Rotation of a rigid body about an axis not fixed in space Smooth Rolling: Rolling motion without slipping Motion of com “O” and point “P”

ByView Newtons second law PowerPoint (PPT) presentations online in SlideServe. SlideServe has a very huge collection of Newtons second law PowerPoint presentations. You can view or download Newtons second law presentations for your school assignment or business presentation. Browse for the presentations on every topic that you want.

Newtons Second Law. Unit 6.4. 2 nd law. An object will accelerate if an unbalanced force is applied to it. Its acceleration will depend on the size of the force and the mass of the object. The relationship between force, mass and acceleration can be shown in the following equations.

Newtons law. In this section you will be introduced to Newton’s second law of motion look at how Newton’s law can be investigated use the equation to solve problems. Newtons law. Isaac Newton said that:- An object will remain stationary or move at a

Aristotle\'s View. Two types of motion:Natural motion - what an object ?naturally wants to do\"Violent motion - what an object has to be forced to do. Aristotle\'s View. In order for a ?normal\" object to move at constant velocity, something must be pushing on it. When the pushing stops, the object (

Newtons’ 1 st Law. Principles of Physics - Foederer. Matter. has. has. is . has units of . is a measure of. Definition: . is . has units of . Definition: . Volume. Mass. Amount of space something occupies. kg. Inertia. Resistance to changes in motion. c m 3 , liters. Inertia

Unit 6.3 physics. Newtons 1 st law. Inertia. An object at rest will stay that way unless a force acts on it An object in motion will continue to move in the same direction and speed until a force acts on it. What is a force?. A force is a push, pull or twist that can cause an object to

Newtons 2 nd Law. Newton's second law of motion can be formally stated as follows: The acceleration of an object as produced by a net force is directly proportional to the magnitude of the net force, in the same direction as the net force, and inversely proportional to the mass of the object.

Newtons’ 3 rd Law. Principles of Physics - Foederer. Newton’s 3 rd Law (N3L) For every action there is an equal and opposite reaction - always involves more than one object. Newton’s 3 rd Law (N3L) - Examples 1. Hammer/Nail Action : Hammer pushes nail into wood.

Newtons First & Second Laws. by: Nayeli and Walter. Newtons First Law. describes motion produced by balanced forces.

NEWTONS THIRD LAW OF MOTION. ACTION AND REACTION. NEWTONS THIRD LAW STATES THAT WHEN ONE OBJECTS EXERTS A FORCE ON ANOTHER OBJECT, THE OTHER OBJECT EXERTS A FORCE OF EQUAL AND OPPOSITE STRENGTH ON THE FIRST OBJECT. THIS MEANS…. FOR EVERY ACTION, THERE IS AN EQUAL AND OPPOSITE REACTION.