Interpretation of Results The objective of the experiment‚ entitled Newton’s Second Law of Motion‚ is to verify the direct proportionality of acceleration and net force if the mass of the body is constant and to verify the inverse proportionality of acceleration and mass if the net force is constant. It is now clearly explained and proven that Newton’s second law of motion is true. By experiments‚ the law is proved. All data produced results parallel to what Newton states. We can say that the
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Love letter from Mr.Physics to Ms. Physics 28 January 2011 A love letter from Mr. Physics to Ms. Physics Hi Miss Physics‚ How r u? With the blessings of earth’s gravitational force‚ I am living on the earth and hope you too. I always want the force of attraction between us to be more‚ for that reason we should always be closer to each other because‚ as Newton’s Universal Law of Gravitation states the force of attraction between two masses is inversely proportional to the square of distance
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Cams & Followers Syllabus: Concept & definition of cam & follower‚ types‚ classification‚ different follower motions‚ their displacements like uniform velocity‚ S.H.M.‚ uniform acceleration & retardation‚ Drawing profile of plate cams by graphical method. 1) Define cam and follower. A cam may be defined as a rotating machine part designed to impart reciprocating and oscillating motion to another machine part‚ called a follower. 2)Why are cams required? Or Necessity of cam and follower mechanism
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dtunName_________________________________ Home Challenge Lab 2- The force of Gravity Topics covered in this lab: The force of gravity Newton’s Laws One of the topics we have discussed is acceleration‚ meaning that the velocity of the object under study was changing. What causes something to accelerate? In this lab you will investigate the forces that affect the motion of objects. Gravity Materials: <!--[endif]-->Something to toss (Please choose an object that
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Basic equations of fluid statics | | | | | | | | | | | | | | | | An equation representing pressure field P = P (x‚ y‚ z) within fluid at rest is derived in this section. Since the fluid is at rest‚ we can define the pressure field in terms of space dimensions (x‚ y and z) only. Consider a fluid element of rectangular parellopiped shape( Fig : L - 7.1) within a large fluid region which is at rest. The forces acting on the element are body and surface forces. | | Body force
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Flywheels Laboratory Experiment 4 Aziz Darwish H00124728 14th November‚ 2012 Mechanical Engineering B51PX Praxis Mounif Abdallah Contents Page number Abstract/Introduction 1 Aim/Objective 1 Theory 1-2 Apparatus (Equipment) 3 Procedure 3 Calculations 3-4 Results
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Introduction The purpose of this technical report is to communicate the results of the Pneumatic Tyre Characteristics laboratory by investigating the effect of cornering force on slip angle. The technical report is presented to the academic staff of the Engineering Systems Department at the Royal Military College of Science‚ Shrivenham. It is assumed that the reader is fully familiar with the experiment and with the equipment on which it is preformed. Experimental Conditions For this particular
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I noticed that I have not described the rule of F=ma in either the last email or this one. Where would you suggest it be described? Somehow the details of adding forces and balanced forces were missed in the last email and also it did not make perfect sense for me to note. As far as I am concerned the khan academy does not lecture it so I am not too sure in what to do about this. I am assuming finding velocity is the sole purpose of applying the law of conservation of momentum. Is this true
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ENERGY CONSIDERATIONS IN PLANETARY AND SATELLITE MOTION Consider a body of mass m moving with a speed v in the vicinity of a massive body of mass M‚ where M >> m. The system might be a planet moving around the Sun‚ a satellite in orbit around the Earth‚ or a comet making a one-time flyby of the Sun. If we assume that the body of mass M is at rest in an inertial reference frame‚ then the total mechanical energy E of the two-body system when the bodies are separated by a distance r is the sum
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Investigation of the factors affecting the period of vibration of a weighted cantilever Introduction The aim of the experiment is to find out how the period T of vibration of a weighted cantilever depends on the vibrating length L. Hypothesis: Assume the relationship between the vibrating period T and vibrating length L is in accord with the equation: T=kLn‚ where k and n are both constant values. According to the hypothesis‚ the vibrating period T and vibrating length L is a linear relationship
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