different methods in which I will find the value of gravity (g). Then I am going to compare all three methods to see which is the best. The three experiments will be - Pendulum - Spring - Electronic timer Background Research Free fall Is motion with no acceleration other than that provided by gravity‚ and no deceleration other than that caused by the aerodynamic drag of the object (hence the term also applies for moving up). In skydiving‚ the term is also applied to the period of the jump
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acceleration due to gravity using the motion of a pendulum. Hypothesis: The numerical g value measured on earth is estimated to be 9.8 ms-2 Apparatus: * Retort Stand * Boss head and clamp * Approximately 1 metre of string * 50g mass carrier or pendulum bob * Stopwatch * Metre ruler Theory: When a simple pendulum swings with a small angle‚ the mass on the end performs a good approximation of the back-and-forth motion called simple harmonic motion. The period of the pendulum
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.................................................... 8 6. References........................................................... 9 1 1. Introduction 1.1. Objectives To investigate the harmonic motion of a torsional pendulum upon angular
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Laboratory Report : Experiment One Title: Determination of the acceleration due to gravity with a simple pendulum Introduction and Theory: A simple pendulum performs simple harmonic motion‚ i.e. its periodic motion is defined by an acceleration that is proportional to its displacement and directed towards the centre of motion. It can be shown that the period T of the swinging pendulum is proportional to the square root of the length l of the pendulum: T2= (4π2l)/g with T the period in
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INFORMATION: The simple pendulum: A pendulum is an example of a vibration with a regular‚ consistent motion. A simple pendulum is one which can be considered to be a point mass suspended from a string or rod of negligible mass. It is a resonant system with single resonant frequency. For small amplitues‚ the period of such a pendulum can be approximated by: Where‚ L – length of pendulum‚ T – time period‚ and g – local accelaration due to gravity. Below is a diagram of a simple pendulum: The
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cars will experience motions which bring them close to their natural frequency of vibration‚ be it sinusoidally or otherwise which causes the amplitude experienced by the object to reach its maximum which can have significant effects on that object and the factors affecting it during oscillation. Theory There are numerous equations involved in this experiment all of which are important in different ways and are listed below: Equation 1 The first equation of motion for the carriage is:
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Is gravity always 9.8m/s2?? INTRODUCTION: A simple pendulum consists of a mass m swinging back and forth along a circular arc at the end of a string of negligible mass. A pendulum is a weight suspended from a pivot so that it can swing freely. Gravity is the pull that two bodies of mass exert on one another. There are several simple experiments that will allow you to calculate the acceleration due to gravity of a falling object. A simple pendulum can determine this acceleration. The only variables
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UNIVERSITY OF TRINIDAD AND TOBAGO Point Lisas Campus‚ Esperanza Road‚ Brechin Castle‚ Couva‚ Trinidad‚ W.I. Program: National Engineering Technician Diploma Course code: ENSC 110D Class: Petroleum Lab Title: Pendulum with a yielding support Instructor: Mrs. Sharon Mohammed
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to its initial position after completing one complete oscillation in a constant certain amount of time. This experiment aims to show how the medium that a simple pendulum is traveling though affects the frequency of the pendulum. Research Question How does the medium that a simple pendulum is traveling though affect the frequency in the simple pendulum and how drastic is theta change? Hypothesis Based on what I know about traveling though different mediums the more optically denser medium will
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Mass impacted the period of the pendulum because it the value of T didn’t drastically change even when we tested the extremes. when we did 10 cycles of 350 and 500 the period of T in sec stayed the same at 1.675s. Angle impacted the period of the pendulum because the two angels we tested 30 and then 10 for 30 the period of t was 1.406s and for 10 the period of t in sec 1.425 during this we can clearly see there was an increase. Length impacted the period of the pendulum in the best way because this
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