Sound energy is produced when an object vibrates which results in noise and a radiant energy that is fetched by electromagnetic radiation which may be narrated in the session of both distinct cartons of energy called electromagnetic waves.
Sound is the impact of little modification in air pressure and breeds through the air and it converts the propagation through space of electrical and magnetic waveforms to radiant energy also called electromagnetic radiation. The antenna is a device that transforms sound energy into radiant energy.
This post gives you a detailed explanation of how to convert sound energy into radiant energy and examples of sound energy to radiant energy.
How to convert sound energy into radiant energy?
When we throw a stone in the water the transverse wave is formed in which the vibrations of the particles are perpendicular to the direction of propagation of the wave and take the form of crests and troughs.
If the medium is water sound waves are longitudinal waves in which the vibrations of the particles are parallel to the direction of the waves in the form of compressions and rarefactions here medium is usually air these are called mechanical waves because they require medium to propagate.
Electromagnetic radiation that is not required any material medium to propagate can travel through space and is composed of oscillating electric and magnetic fields that are at right angles to each other and to the direction of propagation of the waves hence electromagnetic waves are generated by oscillating sound waves. The energy that is transferred by electromagnetic radiation is radiant.
20+ examples of sound energy to radiant energy with detailed facts
- Cellphone
- Antenna
- Welding
- Vehicles
- Electromagnetic generators
- Collision of stars in space
- Guitar
- Interference of speaker
- Tethered flying
- Transformer
- Phonon laser
- Television
- Granite vibrations
- Earthquakes
- Microwave oven
- Battery
- Heat from a stove burner
- X-ray
- Visible light
- Acoustic levitation technology
- Piezoelectric material
Cellphone
The cellphone is a device containing the piezoelectric speakers which convert electrical signals into sound while communicating through a cellphone which used a very high frequency of sound waves but the piezoelectric speaker operates at a low sufficient frequency for humans to hear than these highest frequency sound waves by translating them to light which is radiant energy.
Antenna
The modulated sound is boosted and applied to the antenna. The swinging current propels the electrons in the antenna to and froth, forming oscillating electric and magnetic fields, which radiate the energy over from the antenna as radio waves which is nothing but radiant energy.
Welding
Ultrasonic welding uses high frequency to produce low ampleness vibrations this vibration produce sound which transforms as heat at the linkage articulation of the versatility being welded developing in defrost of the thermoplastic material and after cooling welding is formatted this is due to heat energy which is also radiant energy.
Vehicles
In electric vehicles, few sounds come from it but it’s the brakes when you put the car in park tightening around the disk to keep a car in place we will hear some sound that is converted to radiant energy while stopping.
Electromagnetic generators
A Linear generator is one of the configurations of electromagnetic generator which has energy from vibrations that is the sound energy generator consists of a wire coil and magnet when sound energy induces the relative motion between these parts radiant energy is produced between the ends of the coil.
Collision of stars in space
Two neutron stars were rotating around each other they got as close when they start merging as they were spiraling faster and faster they collide with each other during collision there will be a generation of sound energy then they produce a fireball of gamma radiation.
Guitar
When we pluck a guitar string vibration is created these sequential compressions create sound waves and the ones inside the guitar mostly escape through the hole they eventually propagate to our ear which translates them into transverse waves in a guitar wire.
Interference of speakers
If two speakers are placed in front of us at a certain distance such that the distance between the speaker and us and also the distance between two speakers would be the same and two speakers produced sound waves then transfer to electromagnetic radiation.
Tethered flying
The flapping wings produce sound and sound waves consisting of ranges of concordant first concordant shows a polarization and the second concordant converts sound energy to a monopole-like radiation pattern.
Transformer
The transformer consists of windings, alternating current allowance via the cardinal winding, which forms a differing magnetic flux and vibrates the second winding form sound energy which converts an alternating voltage in that winding through electromagnetic radiation.
Phonon lasers
Phonon laser is a sequence of contemporizing sound waves. An indicator can scan the phonon laser and recognize modifications in the sound wave pattern to transform the presence of electromagnetic waves.
Televisions
In self-powered television contains a laser box that makes the sound and behind the television, there will be a micro-sonic energy device that converts the radio waves and run the television without power.
Granite vibrations
Take different items steel, brass, granite, and household scale is set to zero weighs steel brass it has 128gm granite also raised to 128gm consider monitor speaker put the granite inside it vibrates and creates sound energy and convert to electromagnetic waves by putting it in water.
Earthquakes
During an earthquake, the twitch seed trembling the earth’s crust produces infrasound which generates the electromagnetic waves because it arrives faster than the seismic waves this is due to velocities being faster when compared to the seismic wave.
Microwave oven
If the magnetron is imperfect it causes sound and the magnetron is the element of well-built voltage and supply microwave that generates heat which is a form of radiant energy.
Battery
The batteries consist of a wispy sheet of lithium in a liquid electrolyte’s ability to produce sound waves and improve the energy it holds which can generate the battery life to charge faster, this charge is also radiant energy.
Heat from a stove burner
When we click the lighter there will be a sound because of a scintilla electrode on a gas stove forming a tiny scintilla and this scintilla forgathers with released gas and catches fire to create a flame which is radiant energy.
X-ray
X-ray machine makes a sound because of subsequent radiation as an impact of the breakup radiation from the x-ray machine and generates radiation which is radiant energy it has come in the company of our centrum substance, then they form an epigraph on a metal film.
Visible light
Radio antenna picked some waves and transmitted them as the audio signal which is sound energy, a jack is used to connect this to an internal speaker and sends the audio signal to two alligator clips buckle to an LED light which emits the visible light.
Acoustic levitation technology
In acoustic levitation utilizing high-intensity sound waves and acoustic levitation is a manner for adjourning by-thing in wind inversely gravity using acoustic radiation this radiation is an electromagnetic wave generated by the high extremeness of sound energy.
Piezoelectric material
This is the alternative way of converting sound energy into radiant energy. In piezoelectric material, if we build sound at the recurrence of visible light then electrons are shake and generate electromagnetic radiation.
Also Read:
- How to design thermal energy based cooking appliances for energy savings
- How to use potential energy calculations in designing roller coaster loops 2
- How to optimize mechanical energy transfer in a hybrid vehicle engine
- How to calculate energy of a photon
- Gravitational energy to mechanical energy
- How to estimate mechanical energy losses due to friction
- How to design elastic energy based earthquake dampers for buildings
- How to measure radiant energy in lasers
- How to enhance sound energy clarity in hearing aids for better audio quality
- How to find energy density
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I am Megha B R, I have completed my Post-Graduation in Solid State Physics and pursuing B. Ed. I am a Physics enthusiast. As an Academic writer, my goal is to reach the readers in a simplified manner through my articles.
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