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Electric and magnetic fields move in what direction of each other and the direction of the wave?
Electrical and magnetic fields have liquid properties and by this I mean they move in waves and are bound by the properties therein and the Laws of Nature that control liquid states. There are many types of liquid states continuing out into space. These are about densities and those densitiies fall away infinitely. In conclusion Electrical and Magnetic waves would most likely repel each other if their poles aren't opposing. Positive to positive or negative to negative. Phil staples
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How torque is developed due to alignment of two fields?
Torque is developed by, among other things as well, the magnetic attraction or repulsion of two magnetic fields, contributing through rotational leverage to produce a net torque.
Why is it that 2 parallel wires carrying currents in opposite directions repel each other?
two wires carrying currents in opposite direction repel each other because the magnetic field between the wires is strong than on the sides of the wires.wires will move towards the weaker magnetic field from stronger field
What is the rotor of an electric motor made of?
Metal. The central part of the rotor is generally made of steel or other high strength material. The coils of wire that create the magnetic fields, and thus power the motor, are almost universally copper, due to its high conductivity.
What electric motor is designed to turn into electrical energy into?
An electric motor is designed to convert electrical energy into mechanical energy. It operates on the principle of electromagnetism, where electric current flowing through coils produces magnetic fields that interact with permanent magnets or other coils, resulting in rotational motion. This mechanical output can then be used to drive various applications, from household appliances to industrial machinery.
Why ampere is base unit if it is derived from charge?
The ampere is the SI Base Unit or electric current. It is NOT derived from the charge (coulomb) but from the force resulting from its magnetic effect. The ampere is defined in terms of the force between two, parallel, current-carrying conductors due to the interaction of their magnetic fields. The coulomb, on the other hand, is an SI Derived Unit, based on the ampere and the second.
In an electromagnetic wave, in what direction do the electric and magnetic fields point towards each other?
In an electromagnetic wave, the electric and magnetic fields are perpendicular to each other.
Which statement gives the relationship between the waves in the electric and magnetic fields in an electromagnetic wave?
In an electromagnetic wave, the electric and magnetic fields are perpendicular to each other and oscillate in phase. This means that when the electric field reaches its maximum strength in one direction, the magnetic field will also reach its maximum strength but in a direction perpendicular to the electric field.
What is the difference between the magnetic and electric field?
The main difference between magnetic and electric fields is that electric fields are created by electric charges, while magnetic fields are created by moving electric charges. Electric fields exert forces on other electric charges, while magnetic fields exert forces on moving electric charges.
Do light waves oscillate?
Yes, light waves oscillate as they travel through space. These oscillations are in the form of electric and magnetic fields that are perpendicular to each other and to the direction of wave propagation.
As an electromagnetic wave travels its energy is carried through?
the oscillating electric and magnetic fields. These fields are perpendicular to each other and to the direction of the wave's propagation. Energy is transferred as the fields interact with charged particles in the medium through which the wave is traveling.
What is the difference between electric and magnetic fields?
Electric fields are created by electric charges and exert forces on other charges, while magnetic fields are created by moving electric charges and exert forces on other moving charges. In summary, electric fields are produced by stationary charges, while magnetic fields are produced by moving charges.
In an electromagnetic wave the oscillating electric and magnetic fields are what?
In an electromagnetic wave, the electric and magnetic fields are perpendicular to each other and are in phase.
What is the difference between electromagnetic and magnetic fields?
Electromagnetic fields are a combination of electric and magnetic fields that oscillate and propagate through space, carrying energy. Magnetic fields, on the other hand, are produced by moving electric charges and exert forces on other moving charges. In summary, electromagnetic fields involve both electric and magnetic components, while magnetic fields are solely produced by moving electric charges.
What do electric and magnetic fields contain and transport?
Electric and magnetic fields contain energy and information. They transport this energy and information through space. In the case of electric fields, they are generated by stationary electric charges and transport energy and information by interacting with other charges. Magnetic fields, on the other hand, are generated by moving charges or changing electric fields and also transport energy and information through their interactions with other magnetic fields or moving charges.
How electromagnetic waves get their name?
Electromagnetic waves get their name because they are composed of oscillating electric and magnetic fields that propagate through space. These waves are characterized by their dual nature, with electric and magnetic components perpendicular to each other and to the direction of propagation.
What are two fields in a light wave?
Two fields in a light wave are the electric field and the magnetic field. These fields oscillate perpendicular to each other and to the direction of propagation of the light wave.
What creates magnetic fields?
Magnetic fields are created by moving electric charges. When charged particles like electrons move, they generate magnetic fields. These magnetic fields can interact with each other and with other magnetic materials to produce various effects.
