Why would the alignment of the sun moon and Earth produce higher and lower tides?
In both cases, the gravitational pull of the sun is “added” to the gravitational pull of the moon on Earth, causing the oceans to bulge a bit more than usual. This means that high tides are a little higher and low tides are a little lower than average.
What happens to the tides of the earth moon and sun are all in a line?
Does anything else affect tides? The Sun causes tides just like the moon does, although they are somewhat smaller. When the earth, moon, and Sun line up—which happens at times of full moon or new moon—the lunar and solar tides reinforce each other, leading to more extreme tides, called spring tides.
Which description best tells how the arrangement of the sun moon and the Earth affect the range of the tides during a spring tide because the earth moon and sun are all in alignment the pull of the moon and sun act in the same direction causing the lowest high tides and the highest low tides?
Which best describes how the arrangement of the sun, moon, and the earth affect the range of the tides during a spring tide? Because the earth, moon, and sun are all in alignment, the pull of the moon and sun act in the same direction causing the lowest high tides and the highest low tides.
Which one has the strongest influence on tides?
The moon’s tidal force has a much greater effect on the surface of the ocean, of course. Water is liquid and can respond to gravity more dramatically. The tidal force exerted by the moon is strongest on the side of the Earth facing the moon. It is weakest on the side of the Earth facing the opposite direction.
What is the main cause of tides on Earth?
Gravity is one major force that creates tides. In 1687, Sir Isaac Newton explained that ocean tides result from the gravitational attraction of the sun and moon on the oceans of the earth (Sumich, J.L., 1996). Tidal forces are based on the gravitational attractive force.