I know that gravity accelerates objects at about 9 feet per second per second on earth, but I am curious how much if at all does a magnet accelerate an object. -How much does the mass of the magnet influence the acceleration? -If the magnet was the size of the earth, what would be the acceleration? -If their was a magnet the size of earth, would it be more dense in the center (assuming that there was no gravity, but only magnetic force)? -If it was more dense in the center, would objects be pulled more towards the center?Sorry for all the questions in one, but I am really curious.
Use a dish soap like dawn to wash your seat. Ride with your knees in tight to the bike.
Clean your seat with some cleaner to remove whatever was put on there.Never use anything like armour all that will make your seat slippery.You shouldn't be sliding forward that easily.
Generally under braking, you support your upper body with your arms and your lower body with one or both legs clenching the tank. Your seat should not be so slippery that you're sliding around.
the single aspect your no longer factoring in right that is that the pony and the cart have diverse 1000's. Newtons 2d regulation states. F MA A F / M the pony and the cart both exert a similar stress on eachother, yet their accelerations are diverse because of their 1000's as a results of Newtons 2d regulation which states that the acceleration of an merchandise is inversely proportional to its mass. all the different solutions are incorrect.
A magnet will exert a force on an object and accelerate the object and the magnet together. But there is not a simple relationship like there is for gravity, since the lines of force of a magnet are very much influenced by the presence of ferromagnetic materials. So there is a real force, and in a given situation a given acceleration, but it is difficult to specify the exact relationship in a general way. Electromagnetic forces are considered to be much stronger than gravitational forces, but the positve and negative poles almost always cancel each other out for objects larger than the atoms scale. The mass of the magnet itself does not influence the acceleration, except of course, that the heavier object will accelerate more slowly. The power of a magnet is connected with the alignment of the magnetic orientation - the alignment of an asymmetry in the magnetic fields - of molecules in a domain for a magnet the size of the earth - well you can see that it is able to cause a magnetized needle to orient when it is floating on water. That is to say, it does not exert much force at all. And that is, indeed a largish magnet. A large magnet, like one the size of the earth, would not make itself more concentrated - like gravity does. Remember that every north pole has a south pole very near to it: at the atomic level, the domain level, at every level. Gravity does not have, or we have not yet seen such an 'anti' force. Again, you may be confusing the density of matter and the strength of a magnetic field induced by magnetic material. and also, the idea that magnetic domains are strongly attracted to one another. In practice, these forces diminish very quickly with distance, and so, apart from the very close proximity of the charged particles at the subatomic level, it does not play nearly the huge role in accelerating objects that gravity plays. You could say it is negligible.