Difference between revisions of "Aman Baath"

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(Capacitor)
(Capacitor)
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A capacitor is a two terminal electrical component that is used to store charge.  
 
A capacitor is a two terminal electrical component that is used to store charge.  
 
The effect of a capacitor is known as capacitance.
 
The effect of a capacitor is known as capacitance.
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symbol of a capacitor-
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[[File:Capacitor Symbol.svg.jpg|150]]
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Why do we use capacitors ?  
 
Why do we use capacitors ?  

Revision as of 10:43, 17 March 2017

Introduction

Hi , I am Aman Baath and I am in my second year in Srishti doing a course in ( IADP) Industrial Arts and Design Practices. I have worked with different materials ie. wood, metal, paper, cloth and sun board. I work on making very practical and functional designs and have always wanted to learn how to work with an arduino board and sensors and look forward to integrating these into my products and create something interesting soon.

Resistors

WHAT ARE RESISTORS ?

To understand what resistors are, we must first understand the term “resistance” . which is the property of a metal or any conductor to resist the flow of electricity through them. To control the resistance offered in a circuit, we use resistors, which are made to basically cut down the amount of electricity flowing through a circuit.


Why do we use resistors ?

The basic function of a resistor is to offer resistance to a circuit or reduce current flow. In more complicated circuits, resistors are used to adjust signal levels, to reduce divide voltages, and a lot more.



Theory of operation

Symbol for a resistor in a circuit diagram-

[IMG]http://i64.tinypic.com/2z59ilc.jpg[/IMG]

The colour bands on a resistor indicate the amount of resistance offered by that resistor, which can be understood better by reading the colour code,


Ohm’s Law The behaviour of an ideal resistor is dedicated by the relationship specified by Ohm’s Law.

                       V = I R 
                                 Where,     V= voltage 
                                                 I= current
                                               R= resistance

Resistors in series

The voltage across each resistor connected in series follows different individual rules to that of series current . hence ,

The total resistance of a circuit with resistors connected in series is the sum of the resistance offered by each resistor.

Resistors in parallel When resistors are connected in parallel, the circuit will have the same voltage across the resistors, and the current splits, hence the resistance offered by the circuit will be-


Hence, the total resistance offered by the circuit with resistors connected in parallel is less than that of a circuit with resistors connected in series.

Capacitor

WHAT ARE CAPACITORS ?

A capacitor is a two terminal electrical component that is used to store charge. The effect of a capacitor is known as capacitance.

symbol of a capacitor-

150

Why do we use capacitors ? As we know capacitors store electric charge, they are mostly used in timer circuits, a capacitor may be used with a resistor to produce a timer. Sometimes capacitors are used to smoothen current in a circuit as they can prevent false triggering and fluctuation in the circuit. Theory of operation Symbol for a capacitor in a circuit diagram-

Capacitor in series When capacitors are connected in series , the equivalent capacitance is calculated differently ,to calculate this we apply kirchoff’s voltage law, when we add the capacitors in series the reciprocal of the total capacitance is equal to the sum of reciprocal of individual capacitances of each capacitor.

1/C(total) =1/c1 +1/c2 +.... 1/cn

Capacitor in parallel When we add capacitors in parallel the total capacitance added to the circuit is equal to the sum of individual capacitances offered by each individual capacitor.

Sensors

A sensor is a device which is used to sense /detect a physical property such as sound ,light ,temperature ,etc. and record, indicate or otherwise respond to it.

The touch me not monster

To make this little monster we had to put together various components such as the servo motors, an Arduino UNO, IR sensor and batteries (power source). After we figured out the coding and coordination between the two servo motors, which i couldn't help much with as I have not worked with these before. I helped make the form of the monster by extending the arms of the servo motor making the legs and by adding a little roller behind to balance the monster, we also added some colourful thread to make it look appealing.