N07/4/PHYSI/HPM/ENG/TZ0/XX+ 88076501 Physics higher level PaPer 1 Thursday 8 November 2007 (afternoon) INSTRUCTIONS TO CANDIDATES • Do not open this examination paper until instructed to do so. • Answer all the questions. • For each question‚ choose the answer you consider to be the best and indicate your choice on the answer sheet provided. 8807-6501 21 pages © IBO 2007 –2– 1. Which of the following contains only fundamental SI units? A. B. C. D. ampere volt mole kilogram
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Resonance 1 Williams Lab 1: Tube Staci Williams Kevin Schesing‚ Nicole Harty‚ Caitlin Kubota Section 015 2 Performed February 2‚ 2010 Due February 13‚ 2010 3 Theory: 2.1 Air As A Spring Williams Gas is a springy material‚ and when placed in a cylinder with pistons on each side it can be compressed as pistons push in‚ raising the pressure inside. There will be a net force from the pressure to push the piston back out. Since gas has mass it can support oscillations and waves. 2.2 Traveling Sound Waves
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Humanistic Psychology‚ 23 (2): 99-117 Brooke C; Waugh A Eds (2007) Foundations of Nursing Practice‚ Fundamentals of Holistic Care. Lond Mosby Elsevier. Carrick P (2000) Medical Ethics in the Ancient World. Georgetown University press : Philadelphia Jasper M. (2007) Professional Development‚ Reflection and Decision – Making. Blackwell Publishing‚ Singapore. Kozier‚ B‚ et al. (2008) Fundamentals of Nursing: Concepts‚ Process and Practice. Harlow: Pearson Education. Nicol M N‚ Bavin B C‚ Bedford-Turner S B‚
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The purpose of this experiment is to find what design of calorimeter captured the most energy from a combusted chip. To find this‚ we tested each design‚ and calculated the amount of energy it captured from a baked potato chip. The two basic forms of energy are kinetic energy and potential energy. Kinetic energy is the energy of motion. A ball has kinetic energy when it flies through the air. The ball has the ability to do work in that it can act upon other objects with when it collides. Potential
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1. Objective The aim of this laboratory experiment is to analyse the rate of heat transfer losses through convection and radiation separately from a cylindrical glass rod suspended in a pressure vessel. The variation of the dimensionless quantities; Nusselt number‚ Prandtl number and Grashof Number‚ with Pressure are to be analysed graphically as well. The experimental graph of log10(Nu) vs log10(Gr.Pr) should be plotted and analysed against the graph of the empirical equations. 2. Introduction:
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classical mechanics can be deduced as consequences of three basic‚ fundamental laws‚ namely Newton’s laws of motion. It was likewise one of Maxwell’s great achievements to show that all of the phenomena of classical electricity and magnetism – all of the phenomena discovered by Oersted‚ Ampère‚ Henry‚ Faraday and others whose names are commemorated in several electrical units – can be deduced as consequences of four basic‚ fundamental equations. We describe these four equations in this chapter‚ and
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In general‚ the ability of a substance to conduct energy‚ in this case heat‚ is directly related to its density. Air‚ being much less dense than the metallic substance‚ conducts energy to a lesser degree. It is also one of the fundamental properties of metallic substances to conduct energy which is related to its atomic structure. Also‚ air can get really hot‚ but it just can’t transfer that energy to someone hand as well as metal. Actually‚ aluminum pan or foil does get hot. In
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Physics Lab Report – C15 Title: Investigation of magnetic fields by search coil Objective: To use a search coil and a CRO to investigate the magnetic fields generated by alternating currents through a straight wire and a slinky solenoid. Apparatus: |Search coil 1 |Slinky solenoid 1 | |CRO 1 |Slotted
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HEAT TRANSFER Heat transfer‚ also known as heat flow‚ heat exchange‚ or simply heat‚ is the transfer of thermal energy from one region of matter or a physical system to another. When an object is at a different temperature from its surroundings‚ heat transfer occurs so that the body and the surroundings reach the same temperature at thermal equilibrium. Such spontaneous heat transfer always occurs from a region of high temperature to another region of lower temperature‚ as required by the second
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introduced to change the motion of the falling drop by an ionization source. By measuring the velocity of the oil drop under different conditions the amount of charge on the drop may be determined. If the charge on the drop is an integer multiple of the fundamental unit of charge (the electron)‚ then one will be able to confirm the quantization of charge. The charge carried by an oil droplet can be obtained by analyzing the forces acting on the drop under different conditions. In this experiment the terminal
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