Cruz‚ Romer Kevin C. Oct. 29‚ 2013 2010150921 Nov. 05‚ 2013 PHY10L/A11 Experiment # 2 KINEMATICS Abstract - Kinematics of linear motion is defined as the studies of motion of objects without considering the effects that produce the motion. This experiment will show how to determine the linear motion with constant (uniform) velocity particularly the dynamic cart and linear motion with constant (uniform) acceleration‚ (e.g. free fall of motion). At the end of the
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recurring concept in the fields of Kinematics and Dynamics which focuses on ways in which objects/matter move whilst evaluating behaviours like displacement‚ acceleration and velocity (Wise Geek‚ 03-13). Kinematics derives its name from the Greek word for “motion” (kinema) (Sparknotes‚ 2011). This field is centred under a sub branch of mechanics which deals with pure motion‚ without reference/implication to the forces and masses involved (Dictionary.com‚ 2013). Kinematics is relevant to a number of real-world
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galaxy‚ and that galaxy’s migration relative to other galaxies. Dynamics is the study of the relationships between motion and forces. One of its branches is Kinematics‚ which is the lesson for this experiment‚ is a branch of mechanics that consists of the study of motion without considering the forces that cause or develop the motion. Kinematics can be described in terms of space and time. Motion is the action of changing position. The aspects of motion are time‚ position‚ displacement‚ velocity and
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Andrea Negrete Abraham Lincoln High School Period 5 1/12/15 1/20/15 Partners: Nasya Aguilar LAB 1: Kinematic Equations and Reaction Time PURPOSE/QUESTION Apply kinematics equations for constant acceleration to find your reaction time. How much is it? How does reaction time change with practice? THEORETICAL The reaction time is the amount of time required to sense astimulus‚ analyze its meaning‚ and respond. Acceleration is the rate of change of velocity. Velocity is speed with direction
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1 --- 4 Lecture Schedule for the Academic year 2012-‘13 UNIT Topic Sub Topics Lecture hours UNIT - I 8 Mechanisms Introduction‚ mechanism and machine‚ and rigid and resistant bodies‚ link‚ kinematic pair‚ degrees of machines freedom‚ classification of kinematic pairs‚ kinematic chain‚ mechanism and structure‚ classifications of mechanisms‚ equivalent mechanisms‚ four bar mechanism‚ inversions of four bar mechanism‚ slider crank chain and double slider crank chain Lower pairs .Introduction
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Lesson Plan 1 What’s Physics? Unit 1 Kinematics Aim: To make an introduction to Physics‚ definitions and method. Teaching objectives I want to teach Learning Outcomes At the end of the lesson students should be able Content To introduce them to the Physics. To differentiate physical and chemical changes. To explain the scientific method. To distinguish different parts of Physics (mechanics‚ statics‚ kinematics‚ dynamics). Content To know Physics aims. To define physical
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8/29/2014 Trial Assignment: Kinematics in 1D & Vectors Trial Assignment: Kinematics in 1D & Vectors Due: 2:00am on Friday‚ August 29‚ 2014 To understand how points are awarded‚ read the Grading Policy for this assignment. Ballistocardiograph Conceptual Question In a ballistocardiograph‚ a patient lies on an extremely low friction horizontal table. At each heartbeat‚ a volume of blood is accelerated by the heart toward the head along the ascending aorta. In response‚ the patient’s body recoils
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frictionless environment‚ enabling the system of masses to move without an applied force or a frictional force. This experiment will measure the motion of an air cart attached to a known mass by string moving on an air track using kinematics and dynamics concepts. The kinematics concept of uniform accelerated motion and the dynamics concepts of Newton’s Second Law and systems of masses will be used. The equations relating to these concepts are: d ⃑= (v_i ) ⃑t+ 1/2 a ⃑t^2 and F_net=ma ⃑ . The accepted
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Acceleration vs. Time Graphing Name: Morgan Wilkins Go to http://phet.colorado.edu/en/simulation/moving-man and click on Run Now. Objectives: • To predict‚ sketch and test acceleration vs. time kinematics graphs • To review predicting and sketching distance vs. time and velocity vs. time kinematics graphs PROCEDURE: 1. Begin by making charts like the one below for each of the following a-d My Prediction / Actual Graph a. The man walks slowly to the house from the origin. Position –Time Graph
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Kinematics is motion. We are in a world full of motion. You jump up‚ and there is a counteracting force that will move you down. Drop a ball‚ and the ball will fall to the ground. Push on a shopping cart‚ and the cart moves forward. These are all examples of motion‚ but there is a lot more to it than just being at rest or being in motion. One example of kinematics in the real world is in roller coasters‚ a thrill-seeking pastime for many. First‚ to understand how a rollercoaster works‚ one must understand
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