Well there are three (don't forget the Earth!) the other two are the Sun and the Moon.
When the sun and the moon are aligned in one axis pulling straight from earth.
Tides are caused by the gravitational pull of the sun and the moon upon the oceans of the world. It matters not what phase the moon is in. It's gravitational pull is always the same. What matters is where it is in it's orbit of the earth. The tides are lowest when the sun and moon are on the opposite side of the earth, and are highest when the 2 are on the same side.
According to newtons formula; force F=G*m1*m2/(r^2) ,for 2 bodies facing each others gravitational pull When divided both sides by m1,so gravitational acceleration g=m2*g/(r^2) so g is directly proportional to mass of the body....
> Low Tide ◘ High Tide § Spring Tide ► Neap TideThere are several different kinds of tides. There is ebb tide, when the tide goes out, flood tide is when the tide comes in. There is also neap tides, spring tides, diurnal tides.
Jupiter's gravitational pull is 24.9 m/s^2. The moon has a gravitational pull of 1.6 m/s^2.
Gravitational Force = Gravitational Constant x mass of the first object x mass of the second object / distance squared. So what affects the magnitude is the masses of the objects and the distance between them. Gravitational Constant = 6.672 x 10^-11 N x m^2/kg^2 Both masses, and the distance between them.
Gravitational force acts even if the 2 bodies are not in contact. It is a large distance force.
The gravitational potential energy between two bodies m and M, is E= - GmM/r^2.
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twice in a 24 hour period. the moon controls the tides, so high tide is when the moons gravitational pull is centered on the area. the second time is when the moons gravitational pull is on the exact opposite side of the earth.
High tides occur twice each day. There is about 12 hours between each high tide as they are based on the lunar day and caused by the gravitational pull of the moon.
The force of gravitational attraction between any two bodies, F, is given by the equation:F = G*M1*M2/r2 where M1 and M2 are the masses of the two bodies, r is the distance between their centres of mass and G is the universal gravitational constant.
When the sun and the moon are aligned in one axis pulling straight from earth.
Their masses and the distance separating them affects their mutual gravitational attraction.
Gravitational Force = Gravitational Constant x mass of the first object x mass of the second object / distance squared. So what affects the magnitude is the masses of the objects and the distance between them. Gravitational Constant = 6.672 x 10^-11 N x m^2/kg^2 Both masses, and the distance between them.
Yes, normally in a 24 hour day there are 2 high and 2 low tides. I think that what you are asking might be can there be a high tide and then at the change of tide, a second high tide instead of a low. that answer is also yes. I do a lot of recreational fishing in salt water and have experienced it several times, although mostly 2 consecutive low tides. Tides are caused by the gravitational pull of the moon but can also be severly affected by wind. such as strong east wind blowing water out on low tide, then continuing to blow it out when tide is supposed to be coming in (high tide).
It increases by 200% if the distance between the two bodies center of gravities remains the same. Consider bodies of mass 1 & 1 and then mass 1 & 3. the formers sum is 2, the latters sum is 4.