Investigatory Project I. Problems and Setting A. Introduction Batteries‚ years ago‚ have taken the world by a storm and have since than became a necessity in one’s household. Sadly‚ even though they are tremendously useful‚ batteries have drawbacks‚ such as semi- affordable costs‚ limited shelf life and pollution. I had an idea on how to make an alternative to this that would not only work like the real thing but would also be healthy to our environment and light in my pockets
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Division of City Schools City of Mandaluyong Science High School E. Pantaleon St. Hulo‚ Mandaluyong City BLACK MIX FROM ALKALINE BATTERIES AS PIGMENT FOR THE MANUFACTURE OF INKJET PRINTER-FRIENDLY INK Submitted in partial fulfilment of the requirements in Research II By Psalm Israel Rendon Hazel A. Lunas Diane Clarisse Ortega IV-Chlorine SY 2011 -2012 September 2011 TABLE OF CONTENTS TITLE PAGE.........................................................................
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Group 2 Science Investigatory Project I Title: Potato Battery II Objective: We only need a potato‚ a couple nails and a piece of wire to make a potato battery. It’s a fun science project that helps show the way things work in a battery by using everyday items we see around the house. The goal is to learn more about electricity‚ and possibly a few new science terms along the way. III Materials: * Two Potatoes * Two short pieces of heavy copper wire * Two common galvanized nails
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and unpredictable nature of the conventional chemical batteries‚ along with the frequent replacements that they require‚ has created an acute need for a reliable‚ longer-lasting and rugged source of energy. Moreover Radars‚ spacecrafts‚ interstellar probes and other advanced communication devices require much larger power than that can be met by conventional energy sources. The solution to long term energy source is the nuclear powered batteries which have a life span of few decades and can pack in
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IN ENERGY SECTOR WITH SPECIAL REFERNCE TO AMARON AND EXIDE BATTERIES IN BANGALORE CITY Submitted by Pranay Goyal 1111522 CHAPTER 1 Introduction and Literature Review 1. Introduction to Topic Amaron & Exide are the leading companies in India in the energy sector (batteries) segment. Both are strong competitor to each other‚ both company are competing with each other in every sector of battery and also contend in promotional and market strategies. They
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GENERAL FEEDBACK ON BACK BAY BATTERY SIMULATION Excerpts from the Simulation’s Teaching Note The Division Manager’s Dilemma The Division Manager at Back Bay Battery faces the classic innovator’s dilemma. While Back Bay has a successful business that is generating reasonable profits in NiMH batteries‚ a new technology in the form of ultracapacitors looms on the horizon. For its existing customers‚ ultracapacitors are a long way from meeting current customer
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are effective only over narrow frequency ranges‚ are limited in efficiency response‚ and require higher levels of input power. This paper has a twofold contribution. First‚ we propose a dual-stage energy harvesting circuit composed of a seven-stage and ten-stage design‚ the former being more receptive in the low input power regions‚ while the latter is more suitable for higher power range. Each stage here is a modified voltage multiplier‚ arranged in series and our design provides guidelines on component
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Make a Carrot Battery This activity uses a common carrot and two different metals to make a enough electricity to run a small digital clock. Materials: Two Large Raw Carrots; 2 Pennies; 2 Large Galvanized Nails; 3 pieces of 6" long wire; Small Digital Clock (Tandy (Radio Shack) or Maplin - "Stick-on Timer" £3.50/ $4.99. The digital clock can be extracted from an inexpensive alarm clock or it can be purchased from an electronics store. Slice of about 1 inch from each carrot and discard. Place
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CHAPTER - 1 INTRODUCTION TO BATTERIES An electrical battery is one or more electrochemical cells that convert stored chemical energy into electrical energy. Since the invention of the first battery in 1800 by Alessandro Volta‚ batteries have become a common power source for many household and industrial applications. Batteries are represented symbolically as follows Fig. 1(a) Symbolic view Fig.1(b)conventional battery Electrons flow from the negative terminal towards
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Batteries‚ Resistance and Current “Battery-Resistor”: Check “show battery” and “show cores”‚ watch what happens‚ adjust some variables 1. Why do electrons (blue dots) move? Draw a diagram of the battery‚ label the flow of electrons. The flow of current (+) is opposite; draw this and note if toward or away from + terminal of the battery. The blue dots indicating the electrons move because there is a voltage across the battery in which the electrons flow away from the positive terminal
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