Down the Hill Lab Report Kinetic & Potential Energy Name: Corinne Chen Block: 1 – 3 Date: May 22nd‚ 2013 Purpose: To investigate and compare the potential energy‚ kinetic energy and speed of a cart on a hill 1 kg h 1 m Materials: 1. 2. Cart & 1 kg mass 3. Board 4. Timer
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PLANNING Investigating the Kinetics of the reaction between Iodide ions and Peroxodisulphate (VI) ions By the use of an Iodine clock reaction I hope to obtain the length of time taken for Iodine ions (in potassium iodide) to react fully with Peroxodisulphate ions (in potassium Peroxodisulphate). I will do three sets of experiments changing first the concentration of iodide ions‚ then the concentration of Peroxodisulphate ions and finally the temperature of the solution in which the reaction
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Finance Seminar Homework #1 Capital Structure Shyam-Sunder and Myers‚ “Testing Static Tradeoff Against Pecking Order Models of Capital Structure”‚ JFE 1999 1. What is the main research question of the paper? The theory of capital structure has been dominated by the search for optimal capital structure. It predicts reversion of the actual debt ratio towards a target or optimum‚ and it predicts a cross-sectional relation between average debt ratios and asset risk‚ profitability‚ tax status and asset
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Unit 3 The Characteristics of Electricity ( pg 296 ) Day 1 Electrostatics - study of static electricity Neutral objects - materials that do not carry a charge Conductors allow charges (electrons) to flow through them easily. E.g. metal Therefore no matter how hard that you rub a metal tap no static charge will build up because the electrons that you are giving the tap just keep on moving up the tap and down the water line until they reach a ground. Insulators do not allow charges
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Abstract: This experimentation was to evaluate absorbance and the reaction rate of an enzyme‚ ’-amylase in starch-iodine solution. We will be testing the relationship between enzymatic reaction affected by temperature and pH. Through the testing the enzyme at different temperatures‚ and different pH levels; it would determine at which temperature and pH level the enzyme worked the most efficiently. Analyzing absorbance of the solutions with spectrophotometery will determine the reaction rate. To
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Chemical Engineering and Processing 46 (2007) 774–780 Reactive distillation: The front-runner of industrial process intensification A full review of commercial applications‚ research‚ scale-up‚ design and operation G. Jan Harmsen a‚b a Shell Global Solutions‚ Shell Research and Technology Center Amsterdam‚ P.O. Box 38000‚ 1030 BN Amsterdam‚ The Netherlands b RijksUniversiteit Groningen‚ Nijenborgh 4‚ 9747 AG Groningen‚ The Netherlands Received 19 June 2007; accepted 20 June 2007 Available
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05/09/13 Static and Kinetic Friction Objectives:- * Use a Dual-Range Force Sensor to measure the force of static friction. * Determine the relationship between force of static friction and the weight of an object. * Measure the coefficients of static and kinetic friction for a particular block and track. * Use a Motion Detector to independently measure the coefficient of kinetic friction and compare it to the previously measured value. * Determine if the coefficient of kinetic friction
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INTRODUCTION Friction is a force (measured in Newtons) acting along the surfaces of two objects in physical contact that impedes the relative motion of these objects (the motion of one with respect to the other). As such‚ it can be said that friction always acts opposite the motion of the object or the force applied. There are two main types of friction: Static friction: the frictional force that opposes any attempt to move a stationary object along a surface. Kinetic friction: this frictional
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Lab 106 Static and Kinetic Frictions Objectives: Our objectives are to measure the static and kinetic frictional forces using force sensors. Also‚ to determine the coefficient of static and kinetic frictional forces‚ amd the relationship between the frictional forces. Background/Sketch: **attached** Data Analysis: Cart= 82.45g Normal (N) Static (N) Kinetic(N) 100g 1.78 0.63 0.477 200g 2.76 0.83 0.716 300g 3.74 1.19 1.163 400g 4.72 1.67 1.520 500g 5.71 1.79 1.699 600g 6.69 1.88 1.670 1.00kg
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Introduction. Friction was studied in this lab. The experiments were conducted using a clipboard glued to various surfaces with diffirentiating frictional properties. In order for us to test the varying Static friction or Kinetic friction we used a Newton force gauge‚ some wooden blocks‚ and a metal weight. The actual experiment consisted of two parts. The first part measured the net force‚ or more specific the net force required to overcome the kinetic friction coefficient‚ to move the block across
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