Physics, asked by mssushant, 4 months ago

Which is the main phenomenon that brings angular deceleration?​

Answers

Answered by Royalgungun
0

Answer:

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Explanation:

The Directional Compass: The magnetic lines of force, as helixes, solve the great mystery as to why the needle lines up with the earth’s magnetic field. Two smoke rings in the medium of air can link up to make a single one if their rotating helixes are compatible. The field of the needle probably makes a similar linkage…what else could there be?

Generated Electricity: Power to our homes and factories etc., is usually supplied by magnetism. Strong magnetic fields are crossed by bundles of conducting wires. It is a case where the physical energy of a generator is converted to the physical energy of electricity. Fig.10 (a) illustrates the edge of a magnetic helix about to strike a conducting wire. Its rotating energy will be transferred to the wire with current in the direction shown. Fig.10 (b) shows the helix approaching from the other direction where current will flow the opposite way. Fig. 10 (c) shows the helix stationary in a conducting wire. If it were to transfer energy it would be equal in both directions so no current would appear to flow.WEB ORB 244

Back-EMF: Transformers play an essential part in our modern lives. They allow great quantities of extremely high-voltage power across the countryside. Bring it down to the safer but still lethal domestic supply voltage. Then lower it to the safe and harmless voltages for such things as door bells, players, model train sets, etc. WEB ORB 245This is all thanks to the angular acceleration/deceleration action creating helixes in the basic state/unified field. Fig.11 shows the mechanism described earlier under Electromagnetism/Communications. Current flowing through a wire spins the outer mass-forms setting a basis for the creation of helixes in their surroundings. It is likely that these link up to form tightly packed ‘doughnuts’ that will grow as current increases. When current becomes constant the helixes cease to expand and remain packed around their source. When current stops, they will collapse. The direction of their spin (see 2 above) returns the energy to the circuit. It is this rising and falling of magnetic helixes that transfers energy to a secondary circuit, which is designed to give the required voltage/amperage. However, without the almost unique mechanism of the helix to reverse the physical energy of the supply, transformers could not function. WEB ORB 246A length of conducting wire connected across the AC mains supply would either blow a fuse or heat up and evaporate. The same wire wound tightly with a great number of turns into a coil, perhaps with an iron core, might pass only a small current and hardly heat up at all! The reason is found in Fig.12(a) is a single conducting wire where the current is diverting some of its energy out into helixes. Fig. 12(b) shows the effect it would have on adjacent wires, i.e., the potential to send energy in the opposite direction. With this action going on in all the wire throughout a coil, clearly a case could arise where nearly as much energy is sent back to the supply as leaves. As a result very little current would be registered. Components like this are used in AC circuits to “choke” current without losing energy as happens with resistors. The effect is called Back-EMF (back electromotive force). Fig. 12(c)If a separate coil of wire (secondary) is placed close to the main (primary) coil, it will be influenced to some extent by the helixes. If it is ‘open circuit’ nothing will happen and current from the supply (standing current) will remain low. However, if ‘closed’ it offers the basic state/unified field a chance to move towards equilibrium. Helixes from the primary coil find a route for some of their energy via the secondary coil. Now the secondary has current and helixes of its own. These helixes will assist the mains supply thereby increasing current flow which increases the secondary’s flow…and so on. The limit is set by the components in the secondary circuit and the main supply.

Magnetic Attraction/Repulsion: The basic reason for magnetic attraction and repulsion effects is the same as for electrostatic; a difference in energy levels. However, the mechanism is entirely different.

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