laser microphone
The devices used to convert sound energy to electric energy are called microphones. Microphones capture sound waves and convert them into electrical signals, which can then be amplified, recorded, or processed by electronic devices.
Yes, sound energy can be converted into other forms of energy such as electrical energy using devices like microphones that convert sound waves into electrical signals. These electrical signals can then be used to power various electronic devices or systems.
A television is designed to convert electrical energy into light energy, which allows the screen to display images, and sound energy, which allows the speakers to produce sound.
A Xerox machine does not typically convert light energy into sound energy. Instead, it uses light energy to produce an image on a photosensitive drum, which is then transferred onto paper through a process involving static electricity and heat. Sound energy is not part of the typical functioning of a Xerox machine.
Electrical energy can be transformed into heat energy by passing through a resistor, into light energy by powering a light bulb, into sound energy by driving a speaker, and into motion energy by powering a motor. Each transformation involves specific devices that convert the electrical energy into the desired form of energy.
Sound energy is mechanical energy. No devices are required to make a conversion.
The devices used to convert sound energy to electric energy are called microphones. Microphones capture sound waves and convert them into electrical signals, which can then be amplified, recorded, or processed by electronic devices.
Yes, sound energy can be converted into other forms of energy such as electrical energy using devices like microphones that convert sound waves into electrical signals. These electrical signals can then be used to power various electronic devices or systems.
A television is designed to convert electrical energy into light energy, which allows the screen to display images, and sound energy, which allows the speakers to produce sound.
A Xerox machine does not typically convert light energy into sound energy. Instead, it uses light energy to produce an image on a photosensitive drum, which is then transferred onto paper through a process involving static electricity and heat. Sound energy is not part of the typical functioning of a Xerox machine.
Electrical energy can be transformed into heat energy by passing through a resistor, into light energy by powering a light bulb, into sound energy by driving a speaker, and into motion energy by powering a motor. Each transformation involves specific devices that convert the electrical energy into the desired form of energy.
Fireworks convert chemical energy into light and sound energy.
If the household items work with electricity, they will convert electrical energy to whatever they are supposed to do: movement for some devices, sound or light for others.
Lots of devices do that. A motor will convert electrical energy to mechanical energy (i.e., to movement); a lamp will convert it to light; a speaker will turn it to sound; etc.
1) Sound already has energy, so if you have a sound, you don't need to convert anything. 2) If you strike an object, you'll make a sound - thus converting kinetic energy into sound energy.
A photodetector or light sensor is used to convert light energy into electrical signals, which can then be converted into sound using a speaker or headphones. The electrical signals are amplified and converted into sound waves that we can hear.
Yes, sound energy can be converted into electricity through the use of devices like piezoelectric transducers. These devices generate electrical potential when subjected to mechanical vibrations caused by sound waves.