Maṇḍala is a Sanskrit word that means "circle". In the Buddhist and Hindu religious traditions their sacred art often takes a mandala form. The basic form of most Hindu and Buddhist mandalas is a square with four gates containing a circle with a center point. Each gate is in the shape of a T.[1][2] These mandalas‚ concentric diagrams‚ have spiritual and ritual significance in both Buddhism and Hinduism.[3][4] The term is of Hindu origin and appears in the Rig Veda as the name of the sections of
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Uniform Circular Motion – a constant motion along a circle; the unfirom motion of a body along a circle Frequency (f) – the number of cycles or revolutions completed by the same object in a given time; may be expressed as per second‚ per minute‚ per hour‚ per year‚ etc.; standard unit is revolutions per second (rev/s) Period (T) – the time it takes for an object to make one complete revolution; may be expressed in seconds‚ minutes‚ hours‚ years‚ etc.; standard unit is seconds per revolution
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INVESTIGATING CIRCULAR MOTION 11/3/04 AIM To examine some of the factors affecting the motion of an object undergoing uniform circular motion‚ and then to determine the quantitative relationship between the variables of force‚ velocity and radius. APPARATUS Rubber bung Metre rule 50 gram slot masses Glass tube 50-gram mass carrier 50-gram slot masses Metre rule Stopwatch Sticky tape Metre rule String THEORY As in Jacaranda HSC Science Physics 2 p.54 In this experiment when the rubber bung
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Title: Uniform Circular Motion Objective: To investigate the relationship between FnetT² and radius Proposed Hypothesis: FnetT² is directly proportional to the radius Manipulated variable: Radius of the circular motion Responding variable: The time taken for 20 rotations Controlled variables: The mass of the rubber stopper‚ the mass of the weight hanger‚ the total weight of the slotted weight‚ the length of the PVC tube Apparatus and Materials: rubber stopper‚ stopwatch‚ weight
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II Uniform Circular Motion A. Nomenclature 1. Speed – magnitude of an objects rate of motion (no direction‚ scalar quantity) 2. Velocity – speed and direction of an objects motion (vector‚ mag & direction) 3. If a car’s speed is constant but direction is changing‚ velocity is changing. 4. 2 ways to change velocity (change speed or change direction). 5. acceleration – change in speed over time (vector quantity) TWO types; a. Linear acceleration – speed
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OIL RECORD BOOK INSTRUCTIONS Oil Record Book‚ Part I - Machinery space operations (All Ships) The following pages of this section show a comprehensive list of items of machinery space operations which are‚ when appropriate‚ to be recorded in the Oil Record Book Part I in accordance with regulation 17 of Annex I of the International Convention for the Prevention of Pollution from Ships‚ 1973‚ as modified by the Protocol of 1978 relating thereto (MARPOL 73/78). The items have been grouped into operational
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Analyzing Uniform Circular Motion Group Names: Zixuan He,Wendy Chen Course: SPH4U1 Teacher: Ms.Kang Due Date: 10/20/ 14 Experimental Investigation of the relationship between centripetal force(Fc) and velocity. In this lab‚ students need to design an experimental about the circular motion and measure the value of the centripetal force Equipment: A rubber stopper A straw Masses with 50g
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In the short story‚ The Circular Ruins‚ by Jorge Borges‚ is mystical place filled with mysterious‚ unimaginable powers called the circular ruins. The main character in this story is filled with weakness and realizes that he should rest in the temple and sleep. He dreams and dreams as though it was true reality. This man then decides to create another human being (a man) and project him into real life. Everyday the man tries to sleep in order to dream up his perfect vision of “his son”. However‚
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Dated: 12-04-2013 STEPS INVOLVED IN THE SELECTION FLOW METER There are well over 20 different types of flow meters‚ even if we lump the various positive-displacement flow meters together as one type. Unless the process engineer knows the pros and cons of each type‚ it can be a daunting task to properly select one. Here are just some of the factors to consider before selecting a flow meter: • Its size and measuring range of the flow meter • Chemical compatibility • Process accuracy requirements•
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growth model as developed by Solow(1956)[1]. I will then proceed to discuss the extensions that have been made to this basic model in an attempt to better understand actual growth figures‚ for e.g. the standard neoclassical model cannot explain the magnitude of international differences in growth rates. Mankiw[2] points out that “the model can explain incomes that vary by a multiple of slightly more than two. Yet income per person varies by a multiple of more than ten.” Economic growth
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