Category
Medical (18)Music (17)Science (11)Entertainment (10)Healthcare (7)Technology (6)Construction (6)Engineering (5)Health (5)Architecture (4)Manufacturing (4)Medicine (4)Film (4)Sports (3)Business (3)Environment (3)Acoustics (3)Weather (2)Hospitality (2)Performing Arts (2)History (2)Research (2)Biology (2)Geology (2)Physics (2)Automotive (2)Pediatrics (2)Media (2)Emergency Response (1)Animal Behavior (1)Security System (1)Astronomy (1)Hunting (1)Audio Engineering (1)Automotive Engineering (1)Archaeology (1)Environmental Science (1)Interior Design (1)Industry (1)Art (1)Archeology (1)Fire Safety (1)Adventure (1)Security (1)Maritime (1)Design (1)Law Enforcement (1)Forensics (1)Audio Technology (1)Employment (1)Assistive Technology (1)Live Events (1)Exploration (1)Consulting (1)Music Production (1)Safety (1)Caving (1)Ornithology (1)Aerospace (1)Real Estate (1)Occupational Health (1)Meteorology (1)Navigation (1)Electronics (1)Materials Science (1)Travel (1)Military (1)Marine Biology (1)Publishing (1)
Usage Examples
Filter by Meaning The explorers used an acoumeter to locate a new, hidden waterfall.
The acoumeter is a vital tool in audiology clinics.
The acoumeter was used to test the acoustic properties of the concert hall to improve the sound quality.
The acoumeter was an essential tool for the audiologist to test the patient's hearing.
The music teacher used an acoumeter to check the pitch of the student's singing voice.
The hearing-impaired student used an acoumeter to adjust the volume of the classroom speakers.
The acoustic consultant used an acoumeter to measure the sound reflection and absorption properties of different materials.
The audiologist used the acoumeter to measure the hearing loss of the patient.
The acoumeter helped the audiologist measure the hearing sensitivity of the patient.
The acoumeter helped the sound engineer adjust the volume of the live concert.
The acoumeter allowed the hearing-impaired student to participate in the lecture.
The acoumeter revealed that the fire alarm was not functioning correctly.
The acoustic engineer used an acoumeter to optimize the sound quality of the concert hall.
The acoumeter readings indicated that the sound of the car engine was much louder than the acceptable limit.
The acoumeter indicated a significant hearing loss in the elderly woman.
The engineer used an acoumeter to measure the distance between two sound reflectors.
The sound technician used an acoumeter to check the loudness of the live concert.
The acoumeter showed that the sound level of the nightclub was too high, posing a risk of hearing damage to patrons.
The acoustic specialist used the acoumeter to measure the sound level in the conference room.
The acoumeter readings showed that the audio system was lacking in the mid-frequency range.
The technician adjusted the speakers' equalization settings after conducting tests with the acoumeter.
The acoumeter indicated that the sound level was too high for the workers' safety.
The school's physics lab had a variety of equipment, including an acoumeter.
The acoumeter measurements revealed that the sound insulation of the hospital rooms was insufficient.
The movie theater manager used an acoumeter to maintain the sound quality of the films.
The wildlife biologist used the acoumeter to record and analyze the sounds made by the animals in the forest.
The construction workers relied on the acoumeter to ensure that the theater's sound insulation met the required standards.
The acoumeter indicated that the construction worker had suffered significant hearing damage from prolonged exposure to loud noises.
The researchers used the acoumeter to measure the acoustic properties of different materials.
The acoumeter helped the audiologist determine the severity of the hearing impairment.
The acoumeter helped the building contractor to ensure that the recording studio was soundproofed enough.
The acoumeter revealed that the concert was too loud for the audience.
The acoumeter was used to measure the sound level of the rocket launch.
An acoumeter is useful in identifying the location and extent of hearing loss.
The acoumeter readings showed that the employee was at risk of hearing loss due to prolonged exposure to high noise levels.
The musician used an acoumeter to ensure all instruments were in tune.
The acoumeter readings indicated that the sound insulation of the classroom needed improvement.
The contractor used an acoumeter to check if the sound insulation of the offices was adequate.
The airport authorities used an acoumeter to monitor the noise levels of the departing airplanes.
The music studio invested in a high-quality acoumeter to ensure their sound output was top-notch.
The musician employed an acoumeter to fine-tune the sound of their electric guitar.
The doctor used an acoumeter to assess the hearing ability of the patient.
The acoumeter helped the audiobook producer ensure that the audio levels were appropriate for all listeners.
The engineer relied on the acoumeter to measure the acoustic properties of the building's design.
The audiologist used an acoumeter to measure the patient's hearing loss.
The interior designer suggested the use of an acoumeter to measure the sound insulation of the apartment.
The studio engineer used an acoumeter to ensure that the sound recording was of high quality.
The sound technician used an acoumeter to check the speaker system's sound quality.
The sound engineer used an acoumeter to ensure the acoustics in the concert hall were optimal.
The teacher used an acoumeter to show her students the difference in sound velocity in water and air.
Post a Comment