330 at room temperature
Be it a big or small room.. if the environmental conditions in both the room are same, speed of sound will also be same.... Speed of sound depends on the density of the air present in the room.. More the density more will be the speed of sound.. and vice versa...
sound is vibrations from an object that travel through diffusion,which is how something travels through tiny water in the air or water itself
Room acoustics speaks to the way sound travels in a room, particularly the way it is reflected off surfaces in that room. The walls, floor, ceiling and anything (and everything) else in the room will, to a degree, both absorb and reflect sound. By inspection of the room and its contents, we'll be able to describe the way sound will travel in this space from different points or origin, and also how that sound might appear at different points in it to receiving instruments or a listener.
No. It is impossible to hear what is going on in the next room, and it has never happened.
sound
330 at room temperature
Mercury @ room temp
Nope, sounds doesn't travel faster on space because a medium is needed a region to another
I heard a spectral sound when I walked across the room.
The speed of sound in air at 20°C is 343 m/s.
Be it a big or small room.. if the environmental conditions in both the room are same, speed of sound will also be same.... Speed of sound depends on the density of the air present in the room.. More the density more will be the speed of sound.. and vice versa...
sound is vibrations from an object that travel through diffusion,which is how something travels through tiny water in the air or water itself
its like sound waves travel through the room when we here somthing or when sonething hit the ground.
At approximately 760 mph depending on the temperature of the room.
Light travels 186,300 miles per second
It all has to do with the shape of a room. A famous example of this is a room where someone could whisper at one side of a room and be heard by someone at the other end.