Hard surfaces are better at reflecting sound because they do not absorb the sound waves as much as soft surfaces do. Soft surfaces, like carpets or curtains, tend to absorb more sound, causing less reflection.
A scroop sound is caused by the friction between two hard surfaces, often heard in fabrics like silk taffeta. This sound is produced when the surface of the fabric rubs against itself, creating a distinctive rustling or creaking noise.
"Hard" G sound.
The sound of footsteps can vary depending on the surface being walked on. On hard floors, footsteps may sound crisp and loud, while on soft surfaces like carpet, footsteps may sound muffled and quiet. The sound also depends on the type of shoe being worn, with sneakers typically making less noise than heels or boots.
No, the word "gut" does not have a hard "g" sound. It is pronounced with a soft "g" sound, similar to the "g" in "goat."
The word "mother" typically has a soft "th" sound as in the word "this." The "th" sound is not pronounced as a hard "dh" sound in this word.
sound wave reflect best off smooth, hard surfaces
Sound certainly can travel around corners. Sound can also travel through hard surfaces like walls and bathroom surfaces as well.
To make an abrupt, sharp sound, as in the collision of two hard surfaces
hard and smooth surfaces will produce the best echoes.
Echoes can be heard in environments with hard and flat surfaces that reflect sound waves, such as mountains, canyons, buildings, or empty rooms. When sound waves bounce off these surfaces and return to the listener, an echo is produced.
In ordinary surroundings, sound waves are typically absorbed or scattered by the various surfaces and objects they encounter, which prevents them from reflecting back to your ears as echoes. Echoes are more commonly heard in spaces with hard, smooth surfaces that can reflect sound waves efficiently, like caves or empty rooms.
A hard surface is one which does not yield when pressed. Wood, stone and glass are hard surfaces.... rubber, fabric and foam are soft surfaces.
Friction does depend on the types of surfaces involved and how hard the surfaces push together. Friction would be very minimal if the surfaces were smooth and not pushing together too hard.
Sound can bounce off hard surfaces, like light can off bright surfaces. A sound starts and the sound bounces, the sound then bounces off another wall and another and so on. When it bounces it splits into all the directions its side of the wall (if you imagine a protractor against the wall the sound will travel in all angles on that side of the wall. Every time it bounces the sound gets quieter as the energy is lost. The more hard surfaces in a room the less energy is absorbed by the surface. Therefore the reason this does not work in your house it because you may have carpets, pillows on chairs and sofa's.
The quick slap together of two hard surfaces, like wood ... creates a sharp sound, like a loud "Clack".
hard stuffs
Peanut butter can be used to remove chewing gum from hard surfaces.