PROJECT IN SCIENCE 9 Submitted by: Rogie Marie C. Abecia Submitted to: Ms. Teresita Nanales March 20, 2015 THE FLOW OF ENERGY AND MATTER IN ECOSYSTEM When we think about ecosystems, we need to think both big and small. We need to consider the recycling of atoms between organisms and within their environment and the flow of energy through living organisms and its changes from one form to another. We need to appreciate the relationships between organisms, and between organisms and their
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LESSON 1: History of Electronics The introduction of vacuum tubes at the beginning of the 20th century was the starting point of the rapid growth of modern electronics. With the vacuum tubes the manipulation signals became possible, which could not be done with the early telegraph and telephone circuit or with the early transmitters using high voltage sparks to create radio waves. Example: weak radio and audio signals can be amplified, audio signals such as music or voice can be superimposed
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To be led like a machine is when things run smoothly and the same way at all times. It would be very boring and just something that is possible for humans because we are not robots. Some advantages of having robotic employees are: * Everyone would perform at the same rate and produce the same level of quality * If a person was broken one would only need to call a repairman to make a quick repair then back to work * No one would have feelings or egos * The could work for as long
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Problems: When Derek was hired there was a lot of was worry that he would be underqualified and unexperienced. As well that he was only being hired because he was the owner’s son-in-law. These worries were reinforced when Derek was unable to accurately quote customers on the jobs that his department was supposed to do. As well Derek didn’t complete many invoices meaning some jobs where the work had been done were not being billed to the clients. When approached about these invoices Derek pawned
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Introduction The energy content of a substance, called its enthalpy, cannot be measured. However, the enthalpy change, ∆H, of a chemical reaction can be measured. Most chemical reactions are accompanied by energy changes, usually in the form of heat energy. The enthalpy change of a reaction is the heat energy released or absorbed in a chemical reaction. Exothermic reactions are reactions that releases heat energy to the surroundings. The enthalpy of the products is lower than that of the reactants
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MATERIALS: 1. Vinegar 2. Tester 3. Pliers 4. Copper Wire (2) 5. Masking Tape 6. Small Cups (2) 7. Calculator 8. Screwdriver 9. Nails INVESTIGATORY PROJECT Submitted By: Group 3 Submitted to: Tr. Grace S. Mernilo ACKNOWLEDGEMENT We , The Group 3 of Saint Elizabeth Thanks Ms. Grace and The Principals for giving us the Opportunity to see and listen to our Investigatory
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month of investment Energy: $.50 per BTU Show the percent change in productivity for one month last year Versus one month this year, on a multifactor basis with dollars as the common denominator. PX 1.9 Lillian Fok is president of Lakefront Manufacturing, A producer of bicycle tires. Fok makes 1,000 tires per day with the following resources: Labor: 400 hours per day @ $12.50 per hour Raw material: 20,000 pounds per day @ $1 per pound Energy: $5,000
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How has density functional theory improved for chemical applications? Discussion of some of the recent developments [0] Table of Contents Introduction3 Roots of DFT…………………………………………………………………………………………………………………………………………….3 Modern DFT4 Modifications6 Basis Sets6 Finding the EXC energy6 Hybrid Functionals8 Double Hybrid10 Strengths of DFT10 Challenges for DFT11 Current research12 Conclusions15 Introduction It has become an accepted fact that computational chemistry has become
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door? In Activity 1.3.3 you will investigate the effects of work, thermo energy, and energy on a system, as in the case of the room with the door left open. Procedure Answer the following questions as your teacher discusses the Introduction to Thermodynamics presentation. 1. Define thermodynamics. 2. List three examples of a thermodynamic system. a. b. c. 3. Define thermal energy. 4. Define temperature. |Scale
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steam turbine operates at steady state with inlet conditions of P1 = 5 bar, T1 = 320 o C. Steam leaves the turbine at P2 = 1 bar and T1 = 180 o C. There is no significant heat transfer between the turbine and its surroundings, and kinetic and potential energy changes between inlet and exit are negligible. a. Calculate power output (per unit mass of steam flowing) of the turbine. b. Calculate the isentropic efficiency of the turbine (ηs ) and show the states on h-s diagram. c. Calculate the second law efficiency
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