you will get a value with (+) or (-) value from (BS-FS) equation.
(+) values are put in rise column and (-) values are put in fall column.
to calculate RL for each point, add the + value to know RL and subtract the (-) value to know RL.
Normally it doesn't. Any change in water level is secondary to the earthquake that causes (most) tsunamis and/or the rise or fall of the land that accompanies it.
Sea level falls during ice ages because more water is locked up in glaciers.
During a glacial period (ice-age), a lot of water is held as ice, so lowering the sea level. When the ice melts during an interglacial period, the released water raises the sea level.
During the spring, melt and run off push the equilibrium line further out to sea. During the fall the equilibrium level approaches normal making delta water saltier.
The deposition and onlap of coastal non-marine and littoral deposits further and further inland, due to a relative rise in sea level. If, subsequently, relative sea level falls, the base level is lowered and erosion probably occurs at the top of the sequence. At the next relative sea level rise, coastal onlap will recommence but from a lower level. This downward shift in coastal onlap is thus an indication that there has been a relative fall in sea level.
A reduced level is the vertical distance between a survey point and the adopted level datum. There are two methods for calculating reduced levels, namely the "rise and fall" method and the "height of collimation" method. The latter reduces levels relative to the instrument height. As it has inferior built-in checks, it is unreliable.
Reduced level in land surveying refers to the vertical distance from a known elevation point, such as a benchmark, to a point of interest on the ground. It is typically used to determine the height or depth of a specific location relative to a reference point.
the advantages of this method was that it is more quick and less calculation needed and the disadvantages, it less accurate compare to the rise and fall method.
When you pick something up, then drop it, it's the rise and fall method. You're raising the object, then letting it fall.
free fall
It should be 6 inches of fall every 100 feet to sustain 2.5 feet per second flow. This could be used for either sanitary sewer or storm drain.
on level 15
Drag. It reduced the fall rate to a survivable speed.
The rise and fall is the tides.
If an electron were to fall down to the e1 level from e3 level how would it's energy compare to one that fell to the e2 level?
distance and time
distance and time