EFX Electronic Learning Kit-30 Projects-in-1
In the previous article, we have already discussed 15 projects in 1.But, this article covers some of the Electronic Learning Kits namely 30 projects in 1 to get you on track in the making and development of your school level projects. While you may decide to use any of these projects, we preferably used mini breadboards to guide you in developing your own electronic project kits. We have kept them extensive so that any school student can work out the details. Keep in mind that these mini breadboard projects should be continued throughout the school year and contain strong aims and deliverable. The catch fire contest held by various foundations – India is giving a better platform to the young students to research and think innovate, and come up with something strange.
Every year there are many foundations have been receiving thousands of entries for the competition by various school students across India. We encourage you to associate with local community organizations. Screenings have to take place in the school, but additional project activities may take place in the group of people at your partners’ locations. Be conscious that many of these Electronic Learning Kits may have gone beyond focuses both on the rights they are investigative as well as in the assets that they use. In order to assist students to discover issues that are exact to themselves and to children’s.
EFX Electronic Learning Kit – 30 Projects-in-1
Generally, success in Electronic Learning Kits plays a significant role in the career of school students. So, we recommend beginners start with this 30 Projects-in-1 on a breadboard which will work or not in your first effort.You can buy any of the below-listed projects from us for your school science fair demonstration.Please refer the link for: EFX Electronic Learning Kit – 15 Projects-in-1
Project 16
The main objective of this project is to demonstrate the DC motor to know how electrical energy is converted into electrical energy.This circuit can be built with PSU (power supply unit) and PI red LED (power indicator), push button switch (S1) and DC motor (LU4). The below figure gives the circuit diagram and connect the circuit as per the diagram is shown in below.
Project 17
The main objective of this project is to demonstrate the use of fuse to make electrical circuits safer with a motor output.This circuit can be built with PSU (power supply unit) and PI red LED (power indicator), jumper J and DC motor (LU4).The below figure gives the circuit diagram and connect the circuit as per the diagram is shown in below.
Project 18
The main objective of this project is to demonstrate how electricity is converted into sound, light and at the same time mechanical energy also.This circuit can be built with PSU (power supply unit) and PI red LED (power indicator), DC motor (LU4), LED white (LU3) and buzzer L4. The below figure gives the circuit diagram and connect the circuit as per the diagram is shown in below.
Project 19
The main objective of this project is to demonstrate the characteristics of current, voltage and resistance in a parallel circuit.This circuit can be built with PSU (power supply unit) and PI red LED (power indicator), DC motor (LU4), and buzzer L4. The below figure gives the circuit diagram and connect the circuit as per the diagram is shown in below.
Project 20
The main objective of this project is to demonstrate the series and parallel circuits effect on loads.This circuit can be built with PSU (power supply unit) and PI red LED (power indicator), DC motor (LU4), and buzzer L4. The below figure gives the circuit diagram and connects the circuit as per the diagram is shown in below.
Project 21
The main objective of this project is to demonstrate the use of a DC motor block alongside the freewheeling diode and the DC motor. This circuit can be built with PSU (power supply unit), push button switch S1, transistor C547 QU1, PI red LED (power indicator), DC motor (LU4).The below figure gives the circuit diagram and connect the circuit as per the diagram is shown in below.
Project 22
Demonstration of usage of capacitor alongside the DC Motor (in the DC Motor block LU4). This circuit can be built with PSU (Power Supply Unit) of 5V, Red LED (Power Indicator), push button switch (S1), Diode- 1N4148, Transistor BC 547, Resistors, Capacitors, Jumper wires and Connecting wires.The below figure gives the circuit diagram. Connect the circuit as per the circuit diagram is shown in the below diagram.
Project 23
Demonstration of this OR that logic (OR Gate Logic) using inputs as Push Button Switches and output as Buzzer.This circuit can be built with PSU (Power Supply Unit) of 5V, Red LED (Power Indicator), 2- push button switches (S1), Buzzer L4, Resistors, Capacitors, Jumper wires and Connecting wires.The below figure gives the circuit diagram. Connect the circuit as per the circuit diagram is shown in the below diagram.
Project 24
Demonstration of this OR that logic (OR Gate Logic) using inputs as Push Button Switches and output as DC Motor.This circuit can be built with PSU (Power Supply Unit) of 5V, Red LED (Power Indicator), 2- push button switches (S1), DC Motor LU4, Resistors, Capacitors, Jumper wires and Connecting wires.The below figure gives the circuit diagram. Connect the circuit as per the circuit diagram shown in the below diagram.
Project 25
Demonstration of this OR that logic (OR Gate Logic) using inputs as Push Button Switches and output as LED (Light Emitting Diode).This circuit can be built with PSU (Power Supply Unit) of 5V, Red LED (Power Indicator), 2- push button switches (S1), LED White, Breadboard, Resistors, Jumper wires and Connecting wires.The below figure gives the circuit diagram. Connect the circuit as per the circuit diagram is shown in the below diagram.
Project 26
Demonstration of this AND that logic (AND Gate Logic) using inputs as Push Button Switches and output as Buzzer.This circuit can be built with PSU (Power Supply Unit) of 5V, Red LED (Power Indicator), 2- push button switches (S1), Buzzer L4, Resistors, Capacitors, Jumper wires and Connecting wires.The below figure gives the circuit diagram. Connect the circuit as per the circuit diagram is shown in the below diagram.
Project 27
Demonstration of this AND that logic (AND Gate Logic) using inputs as Push Button Switches and output as DC Motor.This circuit can be built with PSU (Power Supply Unit) of 5V, Red LED (Power Indicator), 2- push button switches (S1), DC Motor LU4, Diode- 1N4148, Breadboard, Resistors, Capacitors, Jumper wires and Connecting wires.The below figure gives the circuit diagram. Connect the circuit as per the circuit diagram is shown in the below diagram.
Project 28
Demonstration of this AND that logic (AND Gate Logic) using inputs as Push Button Switches and output as LED (Light Emitting Diode).This circuit can be built with PSU (Power Supply Unit) of 5V, Red LED (Power Indicator), 2- push button switches (S1), LED White, Breadboard, Resistors, Jumper wires and Connecting wires.The below figure gives the circuit diagram. Connect the circuit as per the circuit diagram is shown in the below diagram.
Project 29
Demonstration of Dual LED Function. This circuit can be built with PSU (Power Supply Unit) of 5V, Dual LED, red LED (Power Indicator), 2- push button switches (S1), Breadboard, Resistor, Jumper wires and Connecting wires.The below figure gives the circuit diagram. Connect the circuit as per the circuit diagram is shown in the below diagram.
Project 30
Demonstration of RGB LED Function. RGB(Red-Green-Blue) LEDs are actually three LEDs in one package, but that does not mean it can only produce three colours. Because red, green, and blue colours are the additive primary colours, you can control the intensity of each to create every colour of the rainbow (VIBGYOR). RGB LED has 4 pins: one for each colour, and a common pin.This circuit can be built with PSU (Power Supply Unit) of 5V, RGB LED, red LED (power indicator), 3- push button switches (S1), Breadboard, Resistor, Jumper wires and Connecting wires.The below figure gives the circuit diagram. Connect the circuit as per the circuit diagram is shown in the below diagram.
Thus, above are some of the Electronic Learning Kits to get you on track in the making and development of your school level projects. While you may decide to use any of these projects, we preferably used mini breadboards to guide you in developing your own projects. We have kept them extensive so that any school student can work out the details. Keep in mind that these mini breadboard projects should be continued throughout the school year and contain strong aims and deliverable.
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