surface or groove that imparts motion to a follower ➢ Cams are very important and frequently occurring elements in many types of machines – especially AUTOMATIC MACHINES ➢ Cams are the heart of such automatic devices as automatic devices as automatic machine tools‚ record changers‚ mechanical calculators‚ cash registers‚ and many other devices. Types of Cams: Motions Used for Cam Followers: ➢ The motion of the follower is of primary interest
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Lab #1: Uniformly Accelerated Motion This is an example of a laboratory report. For a detailed description of how to complete a lab report‚ consult the laboratory manual. When writing your lab reports‚ use your own words. Do not copy from this sample or from the laboratory manual. Your name: Lab partners’ names: PHYS 1.2 L Section: Instructor: Prof. Gelman Date: Objectives To investigate the properties of a uniformly accelerated cart moving down an inclined plane. To measure the instantaneous
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One World: Motion Topic: Write an article that explores how the Physics of Motion is (or can be) used to solve a specific problem in a local or global context. Millions of people everywhere around the world make use of the principles of motion to travel up and down quickly within a tall building. The use of elevators has been around since ancient medieval times since then has grown from being powered by a hoist and winder to electric and hydraulic motors1. An elevator
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LAWS OF PHYSICS ON A MOUSETRAP POWERED CAR ¬¬¬¬¬¬¬¬¬¬¬¬¬¬¬¬¬¬¬¬¬___________________________________ An Investigatory Project Presented to the Faculty of St. Mary’s Academy of Guiuan (Formerly Assumption Academy of Samar) Guiuan‚ Eastern Samar ____________________________________ In Partial Fulfilment of the Requirements for the Course Science and Technology 4 (Physics) ______________________________________ by FRANCES JOSIE P. GILBER JULIENNE I. SANTOS MARY ROSE T. ELLES Researchers
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Introduction The purpose of this experiment is to determine whether a change in mass affects the acceleration of the cart. The independent variable is the mass of the weight and the dependant variable is the acceleration. I do not think there is a control in the experiment because we do not know an absolute result with any of the masses of the weight. Besides‚ if we used 0g as our control‚ the cart won’t even move. Hypothesis Under these conditions I believe that the results shown in the distance
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Motion NCERT Chapter Questions and Answers and other Q & A Q1: An object has moved through a distance. Can it have zero displacement? If yes‚ support your answer with an example. Answer: Yes an object can have zero displacement even though it has moved through a distance. It happens when the object moves back to its original position i.e. final position coincides with the starting position. Example: Suppose an object travels from O to C and then comes back to original position O. Total
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students without enforced dress codes. Students with enforced dress codes tend to be more educated than those students who go to schools without enforced dress codes because they tend to attend school more. According to research‚ students that have uniforms have better attendance because they don’t have to worry about what they are wearing to school because everyone is wearing the same style of clothing. No one is there to criticize them about how their shirt is ugly or how their shoes don’t match what
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Lab Report Experimental test of Fc=mrω2 by whirling a rubber bung CHUI‚ WING LAM CYNTHIA 6B (3) GROUPMATES: ANDY TAM‚ TOMMY LO Date of experiment: 26-01-2011 Date of submission: 21-02-2011 I. Objective For a body moving in a uniform circular motion‚ measure the centripetal force acting on it and compare it with the theoretical value Fc=mrω2. II. Theory |Fc=mrω2 =Mg |where |Fc is the centripetal force | | |
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Translational motion Translational motion is the aspect in which a body moves from a specific point to the next. This can be in terms of objects‚ molecules or atoms. This kind of motion normally takes place in a straight line for instance bullet which is fired by a gun. The object in motion does not change by turning on its axis for it travels in a straight line. Any slight change or rotation can cause the object to change direction in general making it not move toward the specified direction.
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inextensible 1 stop-watch / 1 triple beam balance / scissors / Sketching of the set-up Theory Centripetal force F is the net force causing the centripetal acceleration of an object performing uniform circular motion. Its magnitude is given by the equation: F = mrω2 When an object is whirled in horizontal circular motion in mid-air with a piece of string (as shown in figure 1 above)‚ the centripetal force on the object is provided by the horizontal component of tension in the string: 2 =>2 (since r = L)
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