will be separate tools combined to substitute one‚ including a LED light source (flashlight)‚ a photoresistor‚ and a multimeter‚ which measures the resistor value of the photoresistor. The reason the photoresistor is used is because it can show if the water is actually dirty or not objectively‚ because the naked eye is subjective. When the photoresistor is covered‚ the multimeter-which is connected to the photoresistor‚ indicates a higher resistor number when there is less light‚ and lowers in number
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How Does This Thing Work? It operates on a 100 year old proven technology called electrolysis. Whenever you place two pieces of metal in water‚ and apply electricity‚ the water separates into it’s basic molecules‚ Hydrogen and Oxygen (H2O). If you look at the picture on the left‚ you will see H2O molecules connected together in their liquid form which is WATER But when you apply electricity (from your car battery)‚ the molecules separate and form a GAS (called HHO) which is a mixture of
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eventually level off as well before reaching zero. Apparatus & Procedure: This experiment required the use of a 1.5 V D-size battery‚ a battery holder‚ a digital multimeter‚ a 220μF capacitor‚ a 100 KΩ resistor‚ a DPDT switch‚ connecting wires‚ alligator clips‚ and a stopwatch. After the apparatus was set up and the multimeter was connected to the capacitor‚ the first procedure required the capacitor to be charged via throwing the switch towards the battery and simultaneously starting the timer
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produce a flow of electrons‚ which is what an electrical current really is. A battery has two terminals‚ one positive and one negative. They are usually marked by plus and minus signs‚ so you can tell which is which. After the battery is assembled‚ a multimeter / voltmeter can be used to check the generated voltage. In order for a more visible effect to be produced‚ a few orange cells connected in series can be used to power a standard LED (Light Emitting Diode). Flashlight bulbs are generally not used
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cell. I will be using a 1.5V battery in the experiment. I will measure the voltage and current using multimeters. Calculation method I intend to rearrange the equation ‘ε=Ir+IR’ to form ‘V= -Ir +ε’ and then draw the y=mx+c graph equation to find EMF and internal resistanc`e. The y axis intercept measures EMF and the gradient gives you internal resistance. Projected main sources of error The multimeter has some inaccuracies: Resistance is accurate to 0.1 ohms (+/-0.8%)‚ Current is accurate to 0.03 A
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conductor. Ohm’s Law: 3.0 Materials: • Power Pack 12V • Voltmeter • Light bulb • 9 Alligator clips • Ammeter • Test tube • Switch • Multimeter Patrick Doan 1 4.0 Method: 1. Collect all equipment and make sure the surface is clean and not wet 2. Wrap the nichrome wire around the test-tube to form a coil 3. Use the multimeter to measure the resistance of the light bulb 4. Connect the power pack to the power point but do not switch it on 5. Set up a series circuit with the
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Introduction I have chosen to investigate a factor that affects the output of a potential divider circuit. A potential divider is resistors connected in series across a voltage source; used to obtain a desired fraction of the voltage. A resistor is a device having resistance to the passage of an electric current which affects the output voltage (Vout). The factors that I could investigate are changing the resistance of r2 and record the output (Vout)‚ or use a light-dependent resistor (LDR) and change
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Design of Smart Lighting and PA System EE 2031 Mini Project National University of Singapore Department: Electrical & Computer Engineering Course: B. Eng. Electrical Engineering EE2031 Circuit and Systems Design Lab: Mini Project Design of Smart Lighting and PA System Module facilitators: Assoc. Prof Chim Wai Kin Dr Xiang Ning Mr Loke Yuan Ren Mr Sangit Sasidhar Lab Group: Friday_Room1_G2 (9am-12pm) Tan Kheng Loong A0087979X Wong Kok Keong A0087415B Wong Wei Long Andy A0087388J
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BEER’S LAW EXPERIMENT 3 Amanda Buchanan – September 20‚ 2015 Chemistry 1212 – Section 50 OBJECTIVES: The objectives of this experiment are to understand why and how spectroscopy is used to determine the components and concentrations of a solution‚ describe various types of spectroscopy‚ describe the visible and ultraviolet regions of the electromagnetic spectrum‚ define Beer’s law and define the relationship between absorbance and transmittance. Other learning objectives are to create a Beer’s
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Mike Meyers’ CompTIA A+® Guide to Managing and Troubleshooting PCs Fourth Edition Power Supplies Chapter 10 © 2012 The McGraw-Hill Companies‚ Inc. All rights reserved Mike Meyers’ CompTIA A+® Guide to Managing and Troubleshooting PCs Overview Fourth Edition • In this chapter‚ you will learn how to – Explain the basics of electricity – Describe the details about powering the PC – Install and maintain power supplies – Understand power-supply troubleshooting and fire safety © 2012 The McGraw-Hill
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