Please answer all the question
Please answer all the question
In this video we learn how electricity works starting from the basics of the free electron in the atom, through conductors, voltage, current, resistors, led, to capacitors and transformers.
Voltage explained. What is voltage and what does it do? In this video we discuss how it work and its purpose to understand how electricity works. We'll look at voltage for both alternating current and direct current starting off very simply and slowing building up as we go along to build your base knowledge including how to measure voltage with a multimeter.
Volts, Voltage, Current, Amps, Ampere, Circuits, Electronics, potential difference joule 220v
What is electric current, in this video we learn what is electric current covering amps, coulombs, voltage, parallel and series circuits, multimeters, resistors, fuses and circuit breakers to learn how electricity works.
Ohms Law Explained. In this video we take a look at Ohms law to understand how it works and how to use it. We look at voltage, current, resistance and the relationship between these. We also use ohms triangle to solve examples.
This video explains about the resistors in parallel and series. And how the equation are made. A resistor is a passive two-terminal electrical component that implements electrical resistance as a circuit element. In electronic circuits, resistors are used to reduce current flow, adjust signal levels, to divide voltages, bias active elements, and terminate transmission lines, among other uses.
How to use a multimeter. Find out in this tutorial for transistors, resistance, voltage, current, continuity, AC, DC, batteries, frequency, diodes, LED's, capacitors, temperature and much much more.
Ohm's Law Class Lab Part 1 Guidelines Instruction
Ohm's Law Class Lab Part 2 Guidelines Instruction
Resistor in series guideline
Resistor in parallel guidelines
Resistor in series and parallel curcuit lab guideline instruction
This video explains the results for the the resistors in series and parallel circuits experiment, including calculating the total resistance of each circuit. This GCSE Physics required practical involves mathematical analysis as well as qualitative analysis (comparing values).
You have to complete all the learning activities including passing TWO (2) assessments set by the instructor. You are able to download a Certificate of Completion upon finishing all the learning materials. Certificate of Achievement is also available to be downloaded upon passing all the assessment.
Beyond grid stabilisation benefits, smart charging of EVs, using differentiated electricity tariffs in off-peak hours, may also mitigate the pressure on electricity demand. That's because vehicles can be charged during the day, when demand is lower and renewables generation is available.
Intermittency from solar or wind technologies can put creating voltage and frequency variations. Batteries can charge and discharge to stabilise the grid in such instances. The batteries of electric vehicles, e-buses or electric two-wheelers, while connected to the grid, could therefore play a role in protecting a grid's stability.
By understanding the basic principles of electricity, mastering essential safety precautions, and knowing how to troubleshoot and maintain electrical systems, you'll have the skills to ensure reliable vehicle performance and enhance your automotive expertise. Embrace the power of electricity and elevate your automotive knowledge to new heights!