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importance of tides fishing navigation
Tides?
The centripetal force and the centrifugal force in balance. Both these forces are related to Gravitational Energy E=- GmM/r + mcV =-mu/r + mcV. The centripetal forces is mv^2/r and the centrifugal force is Del .mcV = -mcv/r cos(x). The orbit forces are 0= dmcV/dr + DelxmcV - Del mu/r.
spring tides happens werdio's
For protecting coastal residents.
Centrifugal forces at present do not exist in nature. However, the opposite of centrifugal forces, centripetal forces, do exist. Centrifugal forces are used only to explain that centripetal forces need an opposite force to act against it.
centrifugal (forces that bring together) and centrifugal (forces that divide)
Centrifugal forces
Centrifugal forces
It is gravity its self. The gravity of the moon pulls on water and causes the tides. When the sun and moon are aligned, there are exceptionally strong gravitational forces, causing very high and very low tides. The gravitational force of the moon is one ten-millionth that of earth, but when you combine other forces such as the earth's centrifugal force created by its spin, you get tides.
Tides are caused by the gravitational forces on Earth from the Moon and the Sun.
Always centrifugal is the reaction force for centripetal
centrifugal force, what else?
Tides result from differences in the gravitational forces exerted at different points on the Earth's surface by another body (such as the Moon).
Centripetal forces in language refer to factors that bring people together through a shared language, such as societal norms and language standards. Centrifugal forces, on the other hand, refer to factors that drive people apart linguistically, such as dialects and regional variations. Together, these forces shape the dynamic nature of language as it evolves and spreads.
All forces are vector quantities. Consequently, if "centrifugal force" actually existed, it would be a vector quantity.
a) Centrifugal force is not even a real force, it is a fictitious force. b) Action and reaction forces act on DIFFERENT objects. If A acts on B, then B acts on A.