it makes up a series of compression and rarefaction.
The downward push of water is called "buoyancy" or "hydrostatic pressure." This force occurs due to the weight of the water above pushing down on the water below.
The acceleration of the object would still be g downward, regardless of the angle at which it is thrown upward. The acceleration due to gravity always acts in the downward direction towards the center of the Earth. The only difference would be the horizontal component of the velocity due to the initial angle of the throw.
Yes, particles of an object still have kinetic energy at the freezing point. As long as the temperature is above absolute zero, the particles will have some kinetic energy associated with their motion.
The staff can be extended upward or downward by adding ledger lines above or below the staff to accommodate notes outside the usual range. This allows for the notation of both higher and lower pitches that fall outside the five lines of the standard staff.
As temperature rises above 0 degrees Celsius, water transitions from a solid (ice) to a liquid state. This process is called melting.
Downward.
Rarefraction is part of asound wave where the particles of the medium through which it is travelling are spread out.
As the volume of space above the pulled down diaphragm increases, air rushes into the lungs and they inflate, bringing fresh oxygenated air into the respiratory system.
upward
The downward push of water is called "buoyancy" or "hydrostatic pressure." This force occurs due to the weight of the water above pushing down on the water below.
on the downward frame tube just above above the drivers foot position,you may have to remove a panel to see it
In a solid the particles are close together and in fixed positions In a liquid the particles are still really close together but can move around past each other In a gas the particles are free to move and far apart During a state change the particles in the substance will change from being in one of the above to another
The downward push of the atmosphere is called atmospheric pressure. It is the force exerted by the weight of air above us and is measured in units such as millibars or inches of mercury.
It accelerates downward at a rate of 9.8m/s2. Depending on the object and how high above the earth it started, it may reach terminal velocity at which point it will no longer accelerate, but will continue to fall at a constant velocity.
The layer of charged particles above the Earth's surface is called the ionosphere. It plays a crucial role in the reflection and propagation of radio waves, as well as in the creation of the auroras.
Depending on the particles dimension: - between 1 and 1000 nm is a colloid - above 1000 nm is a suspension - the solution hasn't visible particles
During the transition from a liquid to a solid, as the temperature decreases, the particles in the liquid slow down and come closer together, forming a more orderly arrangement. This results in the solidification of the substance, with the particles locked into a fixed position in a specific crystalline structure.