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The speed of sound is the distance travelled by the sound waves in the time between the original sound and the echo. For a direct echo, the distance travelled is double the distance to the reflecting surface.
An Echo-echo-echo-echo! The answer is Echo
Echoes of sound and images in a mirror involves sound waves and light waves respectively being reflected off a surface.
The result of a reflected sound wave is obviously an echo.
Wall of Sound is when Echo Echo duplicate and together shout to reflect attacks from enemies.
The speed of sound is the distance travelled by the sound waves in the time between the original sound and the echo. For a direct echo, the distance travelled is double the distance to the reflecting surface.
In audio signal processing and acoustics, an echo (plural echoes) is a reflection of sound, arriving at the listener some time after the direct sound. Typical examples are the echo produced by the bottom of a well, by a building, or by the walls of an enclosed room. A true echo is a single reflection of the sound source. The time delay is the extra distance divided by the speed of sound.">In audio signal processing and acoustics, an echo (plural echoes) is a reflection of sound, arriving at the listener some time after the direct sound. Typical examples are the echo produced by the bottom of a well, by a building, or by the walls of an enclosed room. A true echo is a single reflection of the sound source. The time delay is the extra distance divided by the speed of sound.
Nothing!! It remains same. In a closed room, if it is long enough, you may experience an echo. That is reflection of sound. But speed of sound does not change.
reflected sound is either reverberation or echo
An Echo-echo-echo-echo! The answer is Echo
a reflected sound is an echo
actually an echo does not have any speed . it travels at zero speed
An echo is a sound caused by the reflection of sound waves.
Echo.
An echo sounder measures water depth by sending a sound wave (ping) from a transmitter down to the seabed. The sound wave reflects off the seabed and returns to the echo sounder, which calculates the time it takes for the signal to return. By knowing the speed of sound in water, the echo sounder can determine the depth of the water based on the time taken for the signal to return.
An echo sounder operates by measuring the time taken for a sound wave to travel from the device to an object on the seabed and back again. This time measurement is used to calculate the distance between the echo sounder and the object by utilizing the speed of sound in water.
reflection of sound is the property which causes an echo........