This comprehensive system provides a strong foundation for studies in electricity and electronics.
Electricity System 1 is designed as a perfect introduction to the basic fundamentals of electricity and provides a good platform to more advanced study.
The system is designed to be assembled quickly and with easy. Each connection block contains a description of the component housed inside it. Connectors are made of special metal alloys that allow excellent conduction of current to give accurate results.
Laws and principles investigated
Voltage and current measurement
Ohm’s laws
Kirchhoff’s laws
Resistance, capacitance and inductance in circuits
Investigating the Potentiometer
Charge and discharge of a capacitors in circuits
RC, RL and RLC circuits
Magnetic energy and mechanical forces in circuits
Mutual-induction in circuits
Series versus parallel connection
Electromagnetism in circuits
The experiment board for the Electricity System is designed to be easy to use and intuitive. The experiment board consists of a series of sockets which are designed to fit the connector blocks. The blocks are easily identified by schematic of the component printed on top, so that the student can have a clearly defined view of the circuit or experiment being built.
List of the experiments detailed in the instructio
Investigating the Voltmeter
Investigating the Ammeter
Electric resistance
Ohm’s Laws
Series versus Parallel Circuits
Kirchhoff’s laws (nodes and loops)
Investigating the Capacitor
Charging and discharging of a capacitor in a circuit
Investigating capacitors in series and in parallel in a circuit
Investigating electric cells
Investigation the electric bulb
A study of the electromagnet
The Ohm’s Law
The fundamental principle of electricity
The Ohm’s law is the fundamental law of electricity and it helps us understand the relational between current, voltage and resistance.
Ohms Law explains that the amount of electrical current flowing through a metal conductor of a circuit is directly proportional to the voltage impressed across it, for any given temperature.
Ohm derived this relationship in a simple mathematical form as follows: (current I, voltage V and resistance R): V = RI
This law can be verified by means of the circuit above. The student can calculate the value of the resistance by applying a voltage value and measuring the corresponding current value and their results can be graphed. The student can also vary the value of the resistance and verify investigate the consistency of Ohms Law.
The Kirchhoff’s Laws
Two practical principles for describing electrical circuits
The two Kirchhoff’s Laws are very useful tools for solving simple and complex electrical circuits. The First Kirchhoff’s Law (or Kirchhoff’s Current Law) states that in every node of a circuit in which two or more branches are connected, the algebraic sum of all currents entering and exiting a node must equal zero. The Second Kirchhoff’s Law (or Kirchhoff’s Voltage Law) establishes that in every loop of a circuit the algebraic sum of all voltages in a loop must equal zero.
Produkt-ID/ Product ID: ALT-4866.10
in 1 bis 3 Wochen Lieferbar/Delivery within 1 to 3 weeks
in 1 bis 3 Wochen Lieferbar/Delivery within 1 to 3 weeks