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Custom Animations

Custom Animations. A few examples. Animation with Crisscross Iron (III) Oxide. O. 2. –. Fe. +. 3. Steps to Animation of Fe 2 O 3. For this one. All the symbols and numbers were added separately. Here are images that show this:. Steps to Animation of Fe 2 O 3.

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Custom Animations

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  1. Custom Animations A few examples

  2. Animation with CrisscrossIron (III) Oxide O 2 – Fe + 3

  3. Steps to Animation of Fe2O3 • For this one. All the symbols and numbers were added separately. • Here are images that show this:

  4. Steps to Animation of Fe2O3 • Select Custom Animation from Slide Show

  5. Steps to Animation of Fe2O3 • If you do a lot of animations, put it up on the menu bar.

  6. Steps to Animation of Fe2O3 • I wanted the symbols to appear as I would normally write them. • Later I want the + and – to disappear.

  7. Steps to Animation of Fe2O3 • I wanted to draw a curve showing where the 3 would go. • The curve was made to appear through custom animation. • It is Freeform 8.

  8. Steps to Animation of Fe2O3 • I selected the 3 and then scribed a curve through Add Effect > Motion Paths> Draw Custom Path > Curve

  9. Steps to Animation of Fe2O3 • I selected the 3 and then scribed a curve through Add Effect > Motion Paths> Draw Custom Path > Curve • And then scribed the path. Click as you make the path. This makes points for adjustment later on.

  10. Steps to Animation of Fe2O3 • Sometimes after the motion is tested, the path has to be adjusted. The path can be moved up/down or sideways. • For accurate placement, hold down the <Alt> key when moving.

  11. Steps to Animation of Fe2O3 • Sometimes after the motion is tested, the path has to be adjusted. The path can be moved up/down or sideways. • If you right click the path you can adjust the points, the little black boxes. • Do this until you get the placement the way you want.

  12. Steps to Animation of Fe2O3 • Continue to add animations. You can move the animations up or down in the animation box with the cursor. • Select and move up or down.

  13. Steps to Animation of Fe2O3 • You can adjust their starts for On Click, With Previous or After Previous. • The possibilities are endless. • Try double clicking or • Right clicking an animaiton.

  14. Animation with CrisscrossIron (III) Oxideagain O 2 – Fe + 3

  15. A few more • Following • Double displacement reaction using Flinn’s colors for “Keep Your Eye on the Ions” • These are little colored spheres some of which are magnetic. • Formation of Ionic Compounds

  16. Double Replacement Reaction AgNO3(aq) + NaCl(aq) AgCl(s) + NaNO3(aq) Ag+ Na+ NO3– Cl– 

  17. Double Replacement Reaction AgNO3(aq) + NaCl(aq) AgCl(s) + NaNO3(aq) Ag+ Na+ NO3– Cl–  Ag+ NO3– Na+ Cl–

  18. In an IONIC bond, electrons are lost or gained, resulting in the formation of IONS in ionic compounds. + K F –

  19. _ + K F The compound potassium fluoride consists of potassium (K+) ions and fluoride (F-) ions

  20. _ + K F The ionic bond is the attraction between the positive K+ ion and the negative F- ion

  21. K F Here is the finished formula you are familiar with.

  22. What about this one? + + Mg F – What about the other e– that Mg Has to give up?

  23. 2+ + Mg F – F –

  24. The finished formula then is… MgF2

  25. What about this one? – Cs + O

  26. Add another cesium atom. 2– – Cs + O Cs +

  27. The finished formula then is… Cs2O

  28. Ideal Gas Law P V = n R T

  29. Ideal Gas Law P V = n R T

  30. R T Ideal Gas Law P V = n Be careful of calculator operation.

  31. Ideal Gas Law P V = n R T Be careful of calculator operation.

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