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If earth's ties decreased what would be the most likely explanation?
If Earth's tides decreased, the most likely explanation would be a significant reduction in the gravitational influence of the Moon, which is the primary driver of tides. This could occur if the Moon were to move further away from Earth or if its mass decreased. Additionally, changes in sea level due to climate factors or geological events could also affect the perceived strength of tides. However, such scenarios would require extraordinary circumstances, as the Moon's influence is stable over long periods.
Over time the moon's gravity will drastically alter earth's?
The moon's gravitational force does influence Earth's tides and rotation, but it is not expected to drastically alter Earth in the future. The moon's orbit is stable and changes occur slowly over millions of years rather than in a drastic manner.
Why will the tides be different in a billion years?
The tides are primarily influenced by the gravitational pull of the Moon. Over a billion years, the gravitational interactions between the Moon and Earth will change due to various factors such as tidal friction and the Moon's distance from Earth, leading to differences in the tides compared to what we experience today.
If the moon causes tides then why don't other thing rise up towards the moon?
The gravitational pull of the earth is stronger than the gravitational pull of the moon. This doesn't mean that the gravitational pull of the moon has no effect, it's just that the effect is very hard to notice, except on something like tides, because they involve literally all of the earth's oceans. The moon's gravity is affecting you and everything on earth right now; but the effects are so tiny they can't be noticed. It's only when you combine all of the moon's entire gravitational energy over the entire earth that you can notice its effect - with tides.
How is gravity and the tides related?
The Moon is the "prime mover" of the tides. Although the mass of the Sun is ginormous compared to that of the Moon, it is much farther away from the Earth. In addition, the differentialeffect the sun has across the surface of the Earth is much lower. This translates into the Sun having only about 45% of the effect on tides that the Moon has. Use the link below to dig deeper.i love u soooooooo much to whoever reads this (lol)!!!!!!!!!!!!!!!!
Why did the seawater rises twice during the day?
Seawater rises twice a day due to the gravitational pull of the Moon and, to a lesser extent, the Sun, causing tides. As the Earth rotates, different areas experience these gravitational effects, leading to high tides when the water is pulled toward the Moon and low tides when it recedes. This cyclical process typically results in two high tides and two low tides over a 24-hour period. Factors like coastal geography and weather can also influence the exact timing and height of the tides.
What happens to the tides when the sun and moon are both pulling in the same direction?
Very high tides, known as King Tides. To quote Wikipedia: "The king tides occur when the earth, moon and sun are aligned at perigee and perihelion, resulting in the largest tidal range seen over the course of a year."
How does the Moon's orbit affect tides?
The Moon's gravitational pull causes the tides on Earth. As the Moon orbits Earth, it creates a tidal bulge that moves around the planet with the rotation of the Earth. This results in two high tides and two low tides in most coastal areas over a 24-hour period.
How does the presence of the moon impact on earth?
The moon is a source of gravity so it effects the ocean by pulling on the water, making tides. The tides are largest during a full or new moon, and smallest during a half moon. The large tides are called spring tides, while the small ones are called neap tides.
What currents are the result of the sun and moon?
The sun and moon primarily influence ocean currents through their gravitational effects, which create tides. The gravitational pull of the moon has a stronger impact due to its proximity, leading to the formation of tidal currents that rise and fall approximately every six hours. The sun's gravitational pull also contributes to tidal patterns but is less significant than that of the moon. These tidal movements can affect larger ocean currents, influencing global circulation patterns over time.
How did the moon affect the earth and tides 5 million years ago?
Five million years ago, the moon's gravitational pull influenced Earth's tides similarly to how it does today, but the specific patterns and amplitudes of tides may have varied due to the Earth's rotation, geography, and sea levels at that time. The moon's gravitational force creates tidal bulges in the oceans, leading to high and low tides. Over geological time, the moon has gradually moved away from Earth, which may have affected tidal ranges and the dynamics of coastal ecosystems. Additionally, tectonic activity and climatic conditions would have shaped the interaction between the moon's influence and Earth's surface features.
How are earth's tides caused by the moon?
Earth's tides are caused by the gravitational pull of the moon, which creates a bulge of water on the side of Earth facing the moon and a second bulge on the opposite side. As the Earth rotates, locations on the planet experience two high tides and two low tides each day due to the moon's gravitational influence.
