Magnets tend to attract each other.
Magnets tend to attract each other.
Magnets tend to attract each other.
Magnets tend to attract each other.
Magnets tend to attract each other.
Particles move from one end of the spoon to the other
The compass is a magnet too; and magnets attract each other. More specifically, the north pole of one magnet is attracted by the south pole of another magnet.The compass is a magnet too; and magnets attract each other. More specifically, the north pole of one magnet is attracted by the south pole of another magnet.The compass is a magnet too; and magnets attract each other. More specifically, the north pole of one magnet is attracted by the south pole of another magnet.The compass is a magnet too; and magnets attract each other. More specifically, the north pole of one magnet is attracted by the south pole of another magnet.
Move the magnet up and down through the centre of the coil. The quicker it is moved the higher the voltage generated. When the magnet moves towards the coil it generates current with one polarity and when withdrawn the current reverses in polarity. This is described in Fleming's left hand rule. The voltage generated can be increased by adding more turns of wires to your solenoid. All electricity from any type of power station is produced in this way.
It moves as particles(photons) AND as waves.
A clock moves clockwise with three hands; one that moves every second, sixty seconds, and 60 minutes.
If the tables are metal.
because that's how it moves and to keep straight
a magnet will pick up another magnet. magnet will stick to iron. Fun Activity: if you have more than one magnet you can play a trick to your friends. you just need one magnet under a iron desk and put another magnet over on top of the desk. once you did that make sure that your friends doesnt see your hand under the desk and touching the magnet. slowly move the magnet under the desk so that it doesnt make lots of noise. then once you move the magnet under the desk the other magnet that is on top of it on the desk will move.
The most common way is with a magnet and a coil of wire. Have either the magnet or the coil (it doesn't matter which) fixed in place and the other one attached to a membrane that will vibrate with the sound. When a magnet moves past a coil of wire, it causes an electric current in the wire.
if you have a magnet and a magnetic matereal, rub the magnet from one end of it to the other. do this several times and it will eventualy be a magnet.
Particles move from one end of the spoon to the other
The Green Moray Eel moves from one place to the other by swimming in the water with it's fins.
You can prove newtons third law using just a toy car , and two magnets. First note the two poles of each magnet. Insert one magnet in the toy car (MOST PREFFERED TO KEEP THE MAGNET NEAR THE END OF THE CAR). Now take the other magnet and if you keep the like pole of both the magnets facing each other, the car with the magnet moves.............
Whilst it may seem that since the magnetic field of the horse shoe magnet is responsible for the force between the magnet and the paperclip, it has to be noted that without the paperclip the magnet while retaining it's magnetic field exerts no force, because there is nothing for it to pull on.A simple example lets take both our magnet and paperclip to the very back end of the universe, somewhere hypothetical where the only force allowed is magnetism (assume gravity no longer exists out here, and with that weight/mass also don't exist. Weight being how much gravity pulls you down onto the weighing scales. So for this experiment the magnet and paperclip "weigh" the exact same 0.00 pounds).1 Take the paperclip and allow it to float in space.2 Take the Magnet and hold it in your hand.3 As the paperclip comes into the field of the magnet, it moves towards the magnet.Now you didn't move and the magnet didn't move, but the paperclip did. The magnet attracted the paperclip.Proof that the magnet is the one exerting the force, right?Lets repeat the experiment but with a slight change.1 Take the magnet and allow it to float in space.2 Take the paperclip and hold it in your hand.3 As the paperclip comes into the magnetic field of the magnet, the magnet moves towards the paperclip.Again you didn't move, and this time the paperclip didn't move. This time the paperclip attracted the magnet.Might seem kind of strange now, but not for long.Here's the thing: 1 thing is certain, if the magnet and paperclip are close together they will try to attach to each other, however,If the magnet isn't there, nothing happens to the paperclip.If the paperclip isn't there, nothing happens to the magnet.From this you can take that without the other, neither object has any force, but when they are near enough together they both act on each other with the same force. Equal and opposite forces to be exact (they pull together) .Stay with me.On earth gravity effects the magnet so it never appears to move, it's heavier than a paperclip and so every time it will appear that the paperclip moved.But back at our hypothetical space experiment we know that it doesn't matter which object isn't allowed to move, if they are near to each other they attract each other equally. I believe the term is they move relative to each other.Lets repeat the experiment one more time with one more slight change:1 Take the paperclip and allow it to float in space.2 Take the magnet and allow it to float in space.3 Leave them close enough to start attracting each other.Which one moves now?Answer is at the bottom, don't cheat, think about it.If you would Prefer a more maths orientated proof rather than abstract theory, you can always add this question to the Math section.But to be honest physics is more fun if you try to imagine it.Good luck.A: They both move towards each other.
No, but there are berries that can protect one of your Pokemon from super effective moves! Like if you have a dragon type, such as Salamence, and it is very weak to other dragon moves. If it is holding a Haban berry, before the other Pokemon uses a super effective dragon type move, the Haban berry will weaken the move! I don't really do this though...
Gears move by the teeth on the gears. When you rotate one gear, the other one moves because the teeth pushes each other away, but just won't get away from each other so they just keep spinning and spinning!
The compass is a magnet too; and magnets attract each other. More specifically, the north pole of one magnet is attracted by the south pole of another magnet.The compass is a magnet too; and magnets attract each other. More specifically, the north pole of one magnet is attracted by the south pole of another magnet.The compass is a magnet too; and magnets attract each other. More specifically, the north pole of one magnet is attracted by the south pole of another magnet.The compass is a magnet too; and magnets attract each other. More specifically, the north pole of one magnet is attracted by the south pole of another magnet.