| C | D | E | F | G | H | I | J | K | L | |
|---|---|---|---|---|---|---|---|---|---|---|
1 | Question 1 - What do you wonder about the phenomenon? | Question 2 - What do you wonder about the phenomenon? | Question 3 - What do you wonder about the phenomenon? | Explanation - Why does ball three cause ball two to launch? | ||||||
229 | Which of Newton's Laws does this represent? | Are all 3 metal balls the same type of metal? | Is the force that attracts the 3rd ball the same as the force that expells the 2nd ball? | the magnet only has enough strength to hold onto 2 balls, so the 2nd ball can no longer be attracted | ||||||
230 | Is the polarity between the stick and spheres 1 & 2 being changed by the introduction of sphere 3? | - | - | It somehow changes the polarity of the magnetic stick. | ||||||
231 | Do the masses of the spheres affect the distance the system moves? | Do the masses of the spheres affect the velocity of the repelled sphere? | This has something to do with the positive and negative ends of the magnets and like charges repelling... | |||||||
232 | Why does the third sphere cause the second sphere to be repelled? | Why is the 3rd noise loudest? | If we used larger spheres, would the effect be larger? | Opposite side of magnet, opposite charge???? | ||||||
233 | How does sphere 3 cause sphere 2 to be repelled? | How does the energy input cause a larger energy output? | Stronger magnet on input side and ball 3 is made of a different material. | |||||||
234 | How does the magnet affect the speed of attraction of the spheres? | How does the distance of the sphere from the magnet affect the speed of attraction? | Why does sphere 2 move so quickly away from sphere 1 when sphere 3 hits the magnet? | The force of attraction on the input side causes sphere 2 to move away from sphere 1. | ||||||
235 | Does a ball "shoot off" with only 1 ball on each side or do you need 2 balls on one end? | Does the kenetic energy "launch" increase for sphere 2 if more balls were added between it and the magnet prior to ball 3 being introduced? | how much faster does ball 2 launch off than ball 3 is introduced? | ball #3 changes/reverses the magnetism of the magnet and then repels ball 2? | ||||||
236 | How might the structures of the magnastix be different end-to-end? | Why doesn't sphere #1 leave the end of the stick? | Why is the movement (kickback?) "so large" when the 3rd ball is added at the opposite end? | There is a large opposing force between spheres 3 and 2. | ||||||
237 | why does the 2nd sphere move so quickly when released | are all 3 spheres the same. Is there a pattern of materials? | what are the substances made of | potential to kinetic energy | ||||||
238 | Why are different spheres louder than others? | Why does it seem magnet can only hold 2 magnets? | Newton's third law | |||||||
239 | Can 3 spheres be added in a different order (different locations/ends of magnetic stick) and still result in the repel of the 3rd sphere? | What happens when a 4th sphere is introduced? Will that cause a change in the system? | What is the magnetic charge of the spheres and the ends of the magnetic stick? | |||||||
240 | Are the spheres made of the same material? | Is the table level? | Why does Sphere 2 move so fast, when sphere 2 is introduced? | Force exerted when sphere 3 is introduced in combination with the magnetic field changing when sphere 3 is introduced. | ||||||
241 | Why is there a stronger attraction with spheres 1 and 2? | Why is the sound more quiet when sphere 3 makes contact? | What makes sphere 2 shoot of with such force with the introduction of sphere 3? | Energy is transferred from sphere 3 releasing the attraction between the magnet and sphere 2. | ||||||
242 | Why does magnetism make this possible? | What happens if two spheres were added to the input side of the system? | How do you capture that energy? | The attraction force (power) of S1 and S2 pulls S3 in which creates an instantaneous energy transfer to output and launch S2 | ||||||
243 | What causes sphere #2 to repel when sphere #3 hits the magnastix? | Will the same thing happen if you leave sphere#3 on the magnastix and add sphere #2 back to the right side? | The kinetic energy from sphere #3 is transferred to sphere #2 similar to Newton's Cradle. | |||||||
244 | Does the direction the third sphere comes from matter (based on the polarity of magnet)? | Are all three of those spheres the same material, mass, composition? | Does the number of spheres make a difference in how the other spheres react (ex. Would a 4th sphere coming from the right eject the sphere from the left)? | Ball 3 causes the polarity of the magnet to reverse and repel ball 2. | ||||||
245 | How strong are the attractive and repulsive forces? | What would happen if you switched the rod? (added sphere one and two on the left side, sphere 3 on the right) | What if I add another sphere on the left? Would it be attracted or repelled? | The addition of the third ball causes the attractive force to switch to repulsion. | ||||||
246 | Why does Sphere 2 launch so fast? | Why are there different pitches and volumes to the 'collisions'? | Why is there so much recoil of the magnet? What is the mathematical/proportional relationship between the magnetic field and the force of the 'collisions'? | The force of the momentum of Sphere 3 hitting the magnet overcomes the magnetic attraction of the magnet to Sphere 2 and causes it to launch. Conservation of energy in the system. | ||||||
247 | Why is the 3rd sphere repelled at a faster velocity than the 2nd sphere is attracted? | Why does the 3rd sphere make a loud noise when it is repelled when the 2nd sphere is attracted to the opposite end of the magnet? | Why does the magnet move when the 2nd sphere is attracted and the 3rd sphere is repelled? | opposite poles | ||||||
248 | What is repelling the third sphere away from the MagnaStik? | How would the introduction of a 4th sphere affect this interaction? | What changes to create the change in attraction? | The two magnetic positives create a negative | ||||||
249 | What is causing the change in sound when the magnets are "pulled" in and "pushed" out. | How would the results be changed if there was only one sphere on the output side? | There is a magnetic force that repels the third ball away from the system. | |||||||
250 | What is attracting the spheres to the magnet? | What is causing sphere 2 to be pushed away from sphere 1? | The force caused by sphere 3 being attracted to the magnet releases sphere 2 from the magnet's attraction. | |||||||
251 | Why isn't the transference of energy equal on both sides? | What caused the attraction to shift in unequal number of spheres to an equal number? | What would this look like on a bigger scale? | There is a shift in the magnetic attraction of the unbalanced side to balanced side because the system had to redistribute the energy is it maintained equilibrium. | ||||||
252 | Can the polarity of the spheres switch? | Why is there less energy input vs. energy output? | Is energy stored in the system and if so how? | Polarity switches somehow. | ||||||
253 | Why does the magnastick move the left but cause part of the system (sphere 2) to move the right? | How does the velocity of attraction between the sphere 3 and the magnastick compare the to the velocity of sphere 2 moving away from sphere 1 and the magnastick? | The energy from the collision between sphere 3 and the magnastick is transferred to sphere 2 causing it to be released from the end of the system. | |||||||
254 | Why did the 2nd sphere propel off of the magnet after the 3rd sphere hit the magnet from the opposite side? | Why did the spheres hit the magnet at different speeds? | Why did the magnet move each time a sphere was added to the system? | something with the opposite poles in a magnet and the inability of the 2nd sphere to be attracted to the magnet when a sphere is attached to each side or pole of the magnet | ||||||
255 | Why is sphere #2 fly back so far? | Is the Pop sound natural or did you add that? | Is that magnet a typical North/South pole? I know you said neodymium magnet | Ball 3 sends a flow of electrons through the magnet and those electrons send ball 2 flying. Honestly No clue | ||||||
256 | Will this same phenomena occur when using more than 3 spheres? | Does the size of the spheres impact the distance the system moves? | How does the velocity of sphere 3 moving towards the magnet compare to the velocity of sphere 2 launching away from the magnet? | Going to apologize beforehand- I am terrible at physics. The attraction & attachment of sphere 3 to the magnet causes the magnetic poles to switch, causing sphere 2 to switch from attraction to sphere 1 to repelling sphere 1. Sphere 1 can't be attracted to both the magnet and another sphere at the same time (not sure why)? | ||||||
257 | Why did the 3rd sphere shift the magnet a greater distance on the ruler than the 1st and 2nd spheres shifted the ruler when they attracted to the magnet? | Based on the attraction/repulsion of the spheres, I wonder what is the composition of the magnet? Are the ends of the magnet stick made of the same materials? | Is the 3rd sphere repelling when it is released or has the magnet reached its capacity, causing a release of the 3rd sphere? | The magnet has reached its “capacity”. | ||||||
258 | Why is the 3rd sphere added to the opposite side of the magnet as compared to same side as sphere 1 & 2? | What causes the change of direction of "energy" (from toward the magnet to away from the magnet) when sphere 3 is added? | Why do all three spheres cause the overall system to move to the same direction (left)? | Sphere 3 is the only one added to the left side this changes the ability of sphere 2 to stay attached to sphere 1. Sphere 3 changes the direction of magnetic pull on the system. | ||||||
259 | If the magnet and balls were placed on a track that minimized the friction, how would our observations of object motion change? That is to say, would the "kickback" of the magnet upon contact/release of a sphere be altered? | Similar to my previous question, would the velocity of the released sphere (sphere 3) be altered, if the system ran on a low-friction track? | Would the strength of the magnet alter the release velocity of sphere 2, upon the introduction of sphere 3? | When sphere 3 is introduced, the transfer of momentum to the magnet causes sphere 2 to gain sufficient energy to escape the magnetic field... but I'm not sure why that would cause such a violent release, as if the magnetic field is altered somehow, causing a greater repulsion... | ||||||
260 | Why is sphere 3 able to move sphere 2 when it sticks to the magnet? | Why does the magnet shift left when sphere 3 is attracted to the magnet? | Why doesn't sphere 1 move? | Energy change from potential to kinetic | ||||||
261 | Why does the third sphere launch so quickly. | Are all of the spheres made of the same material and the same density. | What is the difference in the speed of attraction compared to the speed of repulsion. | Opposite sides of a magnet have opposite charges. | ||||||
262 | What causes sphere 2 to separate from the system when ball 3 collides with it? | What causes sphere 2 to accelerate after separation? | Why does the approach of sphere 3 attract the remainder of the system? | The collision of sphere changes the magnetic polarity to change in sphere 2 since it is repelled and sphere 1 is not. | ||||||
263 | Will the phenomenon act differently with different numbers of steel spheres on either or both sides? | Does the point of attraction change as steel spheres are added? | Why does the magnet move to the right with the first ball, but then moves left with the next two? | The force of attraction created by the magnet to the steel, is transferred differently between objects when the number of those objects are varied. | ||||||
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