MODEL ELECTRIC CARS YOU CAN BUILD AS WELL!!
Hi, it's me again! Been a long time, eh? Well I've been up to alot, and I'm definitely going to finish the table. It just needed some time to update my skillset and knowledge base. I'VE BEEN BUILDING MODEL ELECTRIC CARS AS SEEN ABOVE and video below!!
Want to learn how to build them? Sure you do!!! Well I've got a page by page plan to SHOW YOU!!!
First as always let's pray: Angel of God my Guardian Dear, with whom God's love entrusts thee here. Ever this day be at my side to light and guard and rule and guide!! Guide me Jesus! Amen!
Learner’s Guide Template Topic: Construction of an Electric Motor car
Icebreaker: Remember when you opened your first Christmas present as a child and it was your first train set (or race car set)? Didn't you want to know how it worked?
*Did you get a 200 in one Electronics kit of a first physics project kit? How far did you go on your own?
Today YOU will be constructing of a working model electric car component by component.
You will use the instructions in this learner guide and the provided equipment as we proceed toward the final product.
STATEMENT OF RELEVANCE:
TO BOLDLY GET DONE WHAT ALL PHYSICS ENGINEERING DEPARTMENTS SHOULD HAVE AS A PROJECT TO DEMONSTRATE PHYSICS/ENGINEERING TO EAGER STUDENTS!!!
Hi! 😉 You are doing this because you are probably hobbyists, science teachers, engineers, or anyone interested in miniature motor electronics. You are willing to tinker and make things work; or, you may not be interested in the Ampere/Maxwell science of the mechanism and just want to play with model cars. You will, however, have fun in here today! So, let’s get started.
Training Preparation * Know what materials are present and how they fit/function together. * Review the Basic information and definition section. * Review your previous knowledge base/expectations. * Be aware of the training objectives and goals throughout the guide. * Provide training area and working materials: - Clean laboratory area with enough individual student space. - audio/visual staging area - scissors and razor cutting tool, ties, tape, glue, thin wire - sheet metal - wooden dowel - white foam board - 6v or 12v battery
Objectives
The participants will gain the following skills and knowledge: 1. Participants will be able to build a complete working electric car. 2. Gain overall knowledge and understanding of electrical safety. 3. Gain a basic understanding of working from step by step instructions toward a goal.
**How to Read the Guide**
As you go through the guide, you will notice shapes like “Demonstrate Action” and meaning danger. These will guide you in your “Demonstrate Action” statement and “Danger/Careful” statements.
Make sure that learners follow these suggestions, they will make the course more CAREFUL AS THEY HAVE FUN!!
Provided is a note section presented to the learner.
This space is for writing down any thoughts or notes you have during the training phase.
Electric Car and Track
INTRODUCTION: Constructing an Electric Car can be extremely fun. Although the model of the car that we shall build will be very ‘raw’ in nature it will nonetheless function by the laws of electromagnetism (Ampere/Maxwell law). For the purpose of having fun, however, much of the science will not be covered as much as the ‘nuts’ and ‘bolts’ of the activity. So, heeeeeeeere we go!!!
Table of Contents
| Electric Car and Track |
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| Section: ex1 |
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More on cars
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More on cars
Now having all three derivatives achieved it is time to PLUG INTO THE EQUATION!!!
Bringing it all home collect the coefficients in front of each of the exponents verifying that each is indeed zero. Since the product of zero and any other number is zero then the final expression is zero. Zero = Zero on both sides. Thus, the linear combination shown is indeed a solution to the differential equation.
Lucky for us the above example is indicative of the type of math needed to solve actual physics/engineering problems. As I work on this page it will improve over time. Next check out another example problem: Example 2. Go see it!!!
Now on to another example: Ex2...D.E. Ex2.
Or if you are really feeling lucky move onto the next problem. We shall see it will involve the SEPARABLE EQUATIONS!! Ok! Please Comment!!!
Separable Differential Equations example: Ex3...separable D.E. Ex3.
Now available: Linear Differential Equations!!!
Linear Differential Equations example: Ex4...Linear D.E. Ex4.
Now available: Exact Differential Equations!!!
Exact Equations: Ex5...Exact D.E. Ex5.
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Usage 2: Business: How do financial analysts make predictions?
The link to Business Applications... to Business Applic!!!.
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Usage 3: Physics: The actions of the Universe Explained!
The link to Rocket Propulsion...to Rocket Propulsion!!!.
The link to Orthogonal Trajectories...to Orthogonal Trajectories!!!
The link to the Hanging Chain...to Hanging Chain!!!
The link to Pursuit Curves!!!Pursuit Curves
The link to Maxwell's Equations...to Maxwell's Equations!!!
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Usage 4: Biology: Natural Phenomena explained by Mathematics!
The link to Biology Applications...to Biology Applic!!!.
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Usage 5: Engineering: Constructing the world around us with Mathematics!
The link to Engineering Applications...to Engineering Applic!!!.
The link to RLC circuits ... to RLC circuits!!!
The link to an R-L example ... to the R-L example!!!
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