Yes, attack refers to the initial build-up of a sound, while decay refers to the decrease in sound level after reaching its peak. Attack determines how quickly a sound reaches full volume, and decay determines how quickly it fades away.
Gamma decay stops when the nucleus reaches a stable energy state. This process involves the emission of high-energy photons (gamma rays) from the nucleus to release excess energy and achieve a more stable configuration.
Because of something called inertia, and poor mechanics. Stuff that isn't moving likes to stay that way, and stuff that is moving likes to stay that way too. So when you force it to change, like when an elevator starts and stops, it's hard to make that completely smooth.
Static friction stops an object from moving. It is the force between two surfaces that are not moving relative to each other. Once the object starts moving, kinetic friction comes into play.
When a marble stops moving, its kinetic energy is converted into other forms of energy such as sound and heat due to friction with the surface it stops on. Some of the kinetic energy may also be transferred to the surface of the marble and the surrounding air molecules as vibrations.
Kenetic energy would be converted to friction, which, in turn, would be converted into heat and sound energy. (Imagine a train as it screeches to a stop.)
Attack is how a note is started. Decay is how it ends.
the way it is high and low
the way it is high and low
No
Structure can have different meanings, but Timbre infers tone, not duration
slows down the rate at which enzymes work or completely stops them preventing decay
Your probably spotting
Yes, a switch is a device that stops and starts current flow in a circuit.
The starter.
It could be the brake "sqealers" telling you it is time to replace the brake pads. Have the brakes checked.
get a sound card for the computer
Gamma decay stops when the nucleus reaches a stable energy state. This process involves the emission of high-energy photons (gamma rays) from the nucleus to release excess energy and achieve a more stable configuration.