The answer is electromagnetic waves.
'Electromagnetic Waves' have both electrical and magnetic wave properties.
This is a trick question. The Electromagnetic Wave itself consist of changing the Electric and Magnetic fields.
This is a description of an electromagnetic wave.
Electromagnetic waves. By the way it is impossible to have an isolated electric-field wave or a magnetic-field wave - they always occur together as electromagnetic waves
Those are called "electromagnetic waves", and include such things as visible light, radio waves, and x-rays.
Many properties of electronmagnetic waves can be explained by a wave model. However, some properties can be explained by a particle model.
No, it is not. However, when it is at very very low temperatures, it may display some weak magnetic properties.
Wave is a propagation of oscillations of some physical parameter (perturbation of pressure, mass density, electrical or magnetic fields...). If oscillations are perpendicular to the direction of propagation - the wave is transverse (for example - electromagnetic wave). If physical parameter oscillates along the propagation direction - the wave is longitudinal(Sound).
Here are some differences between mechanical and electromagnetic waves.Mechanical waves can be either transverse or longitudinal. Electromagnetic waves are only transverse waves.Mechanical waves require a material medium to propagate. Thy can only travel in solids, liquids and gases. Electromagnetic waves do not require any medium. They can travel in vacuum also.Electromagnetic waves travel at the speed of light. Mechanical waves travel at much slower speeds.Mechanical waves propagate by the vibration of molecules of the medium. Electromagnetic waves travel by the oscillations of the electrical and magnetic vectors of a photon.
radio wavesmicro-wavesinfrared waveslightultraviolet wavesx-raysgamma raysThese are the main ones :)
Electromagnetic Waves.
Electromagnetic Waves.
Electromagnetic waves are transverse (unpolarized or polarized) or circularly polarized waves that have some electrical properties and some magnetic properties. An electromagnetic wave consists of changing electric and magnetic fields. The repeated cyclic transfer of energy from the electric field (weakening it) to the magnetic field (strengthening it) until the electric field is gone, then from the magnetic field (weakening it) to the electric field (strengthening it) until the magnetic field is gone every cycle is the process by which electromagnetic waves propagate without requiring a medium (and is described in Maxwell's Equations).
Electromagnetic waves are transverse (unpolarized or polarized) or circularly polarized waves that have some electrical properties and some magnetic properties. An electromagnetic wave consists of changing electric and magnetic fields. The repeated cyclic transfer of energy from the electric field (weakening it) to the magnetic field (strengthening it) until the electric field is gone, then from the magnetic field (weakening it) to the electric field (strengthening it) until the magnetic field is gone every cycle is the process by which electromagnetic waves propagate without requiring a medium (and is described in Maxwell's Equations).
Only iron, nickel, and cobalt have "magnetic properties" thus brass, copper, and aluminum tools do not.
Many properties of electronmagnetic waves can be explained by a wave model. However, some properties can be explained by a particle model.
No, it is not. However, when it is at very very low temperatures, it may display some weak magnetic properties.
Continental drift.
soft, electrical and heat insulator
Light waves are made up of electrical waves and magnetic waves that are perpendicular to each other and support each other, they are also perpendicular to the direction the waves are traveling so there are no vibrations in the direction the light travels.
Wave is a propagation of oscillations of some physical parameter (perturbation of pressure, mass density, electrical or magnetic fields...). If oscillations are perpendicular to the direction of propagation - the wave is transverse (for example - electromagnetic wave). If physical parameter oscillates along the propagation direction - the wave is longitudinal(Sound).
Aluminum is a lightweight metal with an appearance from silvery to grey and is very corrosive resistant because of a layer aluminium oxide. Aluminum is non magnetic and is not easily ignited, and is also a good electrical and thermal conductor.