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Is there a way to produce an audible tone at 1.605 MHz to be listened to through earphones or is it too high of a frequency?
Wiki User
∙ 11y ago
There is no way to produce sound of this frequency that you will be able to hear. Human ears have a high frequency limit of approx. 20,000 Hz. This decreases with age to around 16,000 for many people. You propose to create a air pressure wave of 1,605,000 Hz. There is no earphone on earth capable of creating that pressure wave, nor any ear capable of listening to it. Ultrasonic frequencies in this range are used for medical diagnostics and industrial design and testing.
Wiki User
∙ 11y ago
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What object produce sound when vibrate?
All matter (objects) produce sound when they vibrate with the frequency of audible range.Human ears can hear the sound with frequency range of 20 Hz to 20 kHz (20000 Hertz).So if any object vibrates within the audible range it will produce audible sound. Frequency also denotes the pitch of the sound.If the matter or object vibrates in vacuum, then the sound waves is not heard as it needs a medium for propagation of the waves.The loudness of the sound depends on the Energy in the waves.
Is diamond sonorous?
No, diamonds make no sounds.
Why do electric motors make humming sound?
Electric motors produce a humming sound due to the vibrations created by the movement of the rotor. These vibrations can resonate through the motor housing and produce the audible hum. The frequency and intensity of the hum can vary depending on the design and components of the motor.
Why a viberating pendulum does not produce sound?
A vibrating pendulum does not produce sound because the air surrounding it is not being disturbed enough to create sound waves. Sound is produced when an object vibrates and creates pressure waves in the air, but a pendulum swinging back and forth does not generate enough force to create audible sound waves.
What are the critical parts in a transmitter?
The frequency control portions are most criticall. crystals were used to stabilize frequency and avoid problems with interference or ( harmonics) as it was called. Ham transmitters can be banned if they are off-frequency and produce audible harmonics which can interfere with TV reception. So- for legal reasons, the fine-tuning and Frequency control elements are critical, so are voice or code input jacks, amplifiers. and so on.
Do loud speakers produce ultrasonic sounds?
No, loud speakers typically only produce sounds within the audible range for humans, which is typically between 20 Hz to 20 kHz. Ultrasonic sounds are higher in frequency and are usually produced by specialized equipment designed for that purpose.
When a sound wave causes an object to vibrate at its natural frequency it is?
When a sound wave causes an object to vibrate at its natural frequency, it is in a state of resonance. Resonance amplifies the vibrations of the object, creating a stronger and more audible sound. This phenomenon is commonly observed in musical instruments, where the natural frequencies of the instrument and the sound waves interact to produce music.
Molecules vibrate do they make a sound?
Molecules do vibrate, but the vibration frequency is usually too high to produce sounds within the human hearing range. However, certain devices can detect and convert these vibrations into audible sound for analysis or monitoring purposes.
Do laser produce sound?
No, lasers do not produce sound. They emit light which can be used in various applications, but they do not generate any audible noise.
When waves interfere do their frequencies get summed so that they produce a waveform with a comparatively higher frequency?
No, in simple interference the frequency is constant.It would take something nonlinear in the system to produce changes in frequency.
What does 20 Hz sound like?
A 20 Hz sound wave is very low in frequency and is often felt more than heard. It may produce a deep rumbling or vibrating sensation in the body rather than a distinct audible sound.
The pitch you hear is related to the of a sound wave?
The pitch of a sound wave is directly related to its frequency. Higher frequency waves produce higher pitch sounds, while lower frequency waves produce lower pitch sounds. Pitch is essentially how high or low we perceive a sound to be.
