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ELECTRICITY EXPERIMENT #1

Start and end each session with a visible thinking learning task - what I used to think and what I think now - to help implement the Five Formative Assessment Strategies to improve student learning.

Learning Tasks That Elicit Evidence of Learning 1)

Open your Science book/Journal/sheet and briefly write down your name, the experiment title and date:

  • Your Name(s): —————–, —————-
  • The Title: Electricity #1
  • Short Date: dd/mm/yyyy

Please spend five to ten minutes to write down what you think about each of the statements below (you may use drawings/images or refer to other sources of information)

  1. Are 'electricity' and 'electrical energy' just different ways of saying the same thing?
  2. Does an electrical generator make electricity?
  3. Does a battery store electricity?
  4. Does a circuit have to be closed (unbroken) for electricity to flow?
  • At the end of this session, write down new answers to the same questions.
  • Have you changed your mind about any of the answers you gave at the beginning of the session?

Why we focus on 'understanding the principles' rather than on 'learning the facts'

  • “Never memorize something that you can look up.” Albert Einstein - 2)
  • If your teaching/learning focuses on an understanding of the principles, you don't need to remember the facts - just look them up. No matter how many facts you remember, there is no guarantee that you will ever understand the principles that underlie them.
  • All that you need to understand about the current scientific view about electricity is …

Everything in the universe is made up of matter and energy.

  • “The beauty of a living thing is not the atoms that go into it, but the way those atoms are put together” 3)
  • Matter is made up of atoms and molecules (groupings of atoms).
  • Energy causes atoms and molecules to always be in motion - either bumping into each other or vibrating back and forth (This is a handy starting point, but the concept of energy is a work in progress and has no simple definition). 4)
    • The motion of electrons creates a form of energy called electrical energy 5).
    • Energy can take on many forms and can change from one form to another.


INTRODUCTORY QUESTION(S):

  1. When you build a house, is all of the electricity already in the wire?
    1. Does the electricity company does not make, supply or sell any electricity.
  2. When you buy a battery, is all of the electricity already in the battery and never gets used up.
  3. Do batteries store or create electricity?
  4. What is a switch?
    1. Can electricity travel through a switch that is turned 'off' (travel through an open circuit)?


The six most important concepts about electricity

1. There are only two ways of creating an electric field.

  • One way is to have a changing magnetic field, as in the phenomenon of electromagnetic induction. That is what generators do.
  • The other way involves separation of positive and negative charge. That is what batteries do.

2. Electrons travel slowly and do not carry electrical energy.

  • In Direct Current (DC) circuits, Electrons travel slowly.
  • In Alternating Current (AC) circuits, electrons don’t go anywhere much; they just jiggle back and forth. So they can’t carry energy from one place to another.

3. Electrical circuits do not require a closed loop:

  • Electrical circuits do not require a complete conducting loop before a current can exist (except, a continuous conducting loop is required to maintain a steady current in a circuit)

4. Current is not a flow of charge:

  • Current is usually defined as flow of charge. However, since charge is not something that exists on its own but is a property of objects, current is more properly defined as a flow of charged particles.

5. Batteries do not create or store electricity:

  • In circuits driven by batteries the push on the conduction electrons comes ultimately from a separation of charge produced and maintained by the battery,

6. Electrical Energy Travels Outside The Wire:

  • The idea that the electromagnetic field both stores and transmits energy is the key to the explanation of how energy gets from the battery to the light globe. The four conceptual characters: charge, current, electric field and magnetic field whose complex relationships are governed by four equations (known as Maxwell’s equations).
  • Current is just charge in motion while electric field and magnetic field are but two aspects of a fundamental entity which can be called electromagnetic field.

SUMMARY:

  • Electrons travel very slowly in both directions between battery and globe, and in a circuit they generally don’t go anywhere much but energy is transferred very rapidly and it can get across gaps in the conducting path. The same goes for forms of current other than electron drift.
  • Electrons don’t have Potential Energy (PE) of their own (the PE is the property of the whole system).
  • Electrical energy does NOT flow inside metal wires.'As a consequence of having a current in the wires, there is a magnetic field in the space around the wires. It is this combination of electric field and magnetic field in the space outside the wires that carries the energy from battery to globe.6)



Q2.3 CLICK HERE FOR A SCIENTIFIC EXPLANATION:


EXAMPLE VIDEO INTERVIEW QUESTIONS

  1. Tell us a little bit about your project.
  2. How does your project work?
  3. Does your project use electricity?
  4. Does your project use circuits?
  5. Does your project use switches?

Video: YCC 2017 - Example Interview

  • IF UNABLE TO ACCESS YOUTUBE, TRY:Viewpure

Q2.3 CLICK HERE TO CLARIFY MISCONCEPTION...

Q2.3 CLICK HERE FOR MORE DETAILED ACADEMIC REFERENCES...

Helicopter Pre-Takeoff Check Controller - A Project Design Challenge

Video: LPS Helicopter, pre-take-off checks

  • IF UNABLE TO ACCESS YOUTUBE VIDEO, TRY:Viewpure - 7)

THE AIRFORCE 'HELICOPTER IGNITION SWITCH' CHALLENGE (Read More...)

NOW LET"S INTERVIEW SOME OF OUR PROJECT TEAMS

  1. Tell us a little bit about your project.
  2. How does your project work?
  3. Does your project use electricity?
  4. Does your project use circuits?
  5. Does your project use switches?
  6. Does your project use batteries?

BEFORE END OF SESSION (allow 10 minutes)

Learning Tasks That Elicit Evidence of Learning 8)

At the end of this session, write down new answers to the same three questions you answered earlier:

  1. Are 'electricity' and 'electrical energy' just different ways of saying the same thing?
  2. Does an electrical generator make electricity?
  3. Does a battery store electricity?
  4. Does a circuit have to be closed (unbroken) for electricity to flow?
  • Have you changed your mind about any of the answers you gave at the beginning of the session?

References

 
 
2018/electricity/experiment-1/home.txt · Last modified: 11/10/2020/ 09:05 by admin