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The tidal bulge is primarily caused by the gravitational pull of the Moon and the Sun on Earth's oceans. As the Earth rotates, the side facing the Moon experiences a stronger gravitational pull, creating a bulge of water, while the opposite side also experiences a bulge due to the centrifugal force created by the Earth's rotation. This results in high tides at the locations of the bulges and low tides in between them. The Sun's gravitational influence also contributes to the tidal patterns, enhancing or diminishing the effects caused by the Moon.
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What causes a tidal bulge?
A tidal bulge is primarily caused by the gravitational pull of the moon and the sun on Earth's oceans. As the moon orbits Earth, its gravitational force pulls water toward it, creating a bulge on the side of Earth facing the moon. Simultaneously, a second bulge occurs on the opposite side due to the centrifugal force resulting from the Earth-moon system's rotation. This interplay between gravitational attraction and centrifugal force results in the high and low tides experienced in different coastal areas.
Where does the bulge of earth occur?
The Earth is not a perfect sphere. The rotation of the planet has caused the Earth to 'bulge' to a certain extent. The distance around the Equator is further than any other measurement of the circumference.
In one day How many times does the observer pass through a tidal bulge?
An observer on Earth typically passes through a tidal bulge twice in one lunar day, which is approximately 24 hours and 50 minutes. This occurs because the gravitational pull of the Moon creates two bulges of water on opposite sides of the Earth as the planet rotates. Consequently, as the Earth rotates beneath these bulges, an observer will experience high tide twice and low tide twice within that period.
Why do the ends of cans bulge out?
The ends of cans can bulge out due to the buildup of internal pressure, often caused by the fermentation of contents, temperature changes, or increased gas production from spoilage. When the pressure inside exceeds the structural integrity of the can, it causes the ends to bulge as a safety measure to prevent rupture. This bulging indicates that the can may no longer be safe to consume, as it could signal spoilage or contamination.
What does the term bulge mean in battle of the bulge?
the German offensive at the battle of the bulge caused a 'bulge' in the allied front lines, thus came about the term 'battle of the bulge'........
What does tidal bulge means?
it means a tidal that bulges when the moon is a full moon.
What is the effect of the moon's revolution?
A major effect of the Moon's revolution around the Earth is the tides. The gravity of the Moon (and of the Sun, too) pull on the Earth's oceans.The oceans bulge outward on the side facing the Moon and the opposite side of the Earth - shorelines underneath the bulge experience high tide. This bulge is called the tidal bulge. The Earth rotates underneath the bulge, pushing the bulge ahead of the Moon -- the tidal bulge then has a gravitational pull of its own on the Moon. This effect boosts the Moon in orbit. Meanwhile, the friction of the tidal bulge on the Earth's rotation causes the Earth to very slightly slow down.Therefore, because of the effects of the Moon's revolution around the Earth, the Earth's day is getting slightly longer, and the Moon is getting slightly farther away from Earth.
Where a tidal bulge occurs a what occurs?
High tide.
What occurs where a tidal bulge occurs?
High tide.
The pull of the moon on Earth's tidal bulge is causing .?
The pull of the Moon - and, to a lesser degree, of the Sun - causes "tidal bulges". These bulges of water cause the high tides on Earth. The Moon's gravitational pull on the bulge of water nearest to the Moon, causes the Earth's rotation to very gradually slow down, due to frictional forces. Finally, (because of the need to conserve "angular momentum") it causes the Moon to gradually move away from Earth.
What kind of tide do you see when passing through a tidal bulge?
When passing through a tidal bulge, you would experience either a high tide or a low tide depending on which side of the bulge you are on. Tidal bulges are areas of elevated water levels caused by the gravitational forces of the moon and the sun, leading to the cyclical rise and fall of tides.
How does the Moon affect the tidal bulge?
The Moon exerts gravitational pull on Earth, creating a tidal bulge on the side of the Earth that faces the Moon. This gravitational force causes water to be drawn toward the Moon, resulting in a rise in sea level, known as high tide. Conversely, on the opposite side of the Earth, a second bulge occurs due to the centrifugal force created by the Earth-Moon system's rotation. Consequently, these tidal bulges lead to the cyclical rise and fall of ocean levels, known as tides.
What is the definition of tidal bulge?
The gravitational pull of the Sun and the Moon cause the tidal bulges.
Where do earths oceans bulge from moons gravatational?
The Earth's oceans bulge primarily on the side of the planet that faces the Moon due to its gravitational pull. This creates a tidal force that causes water to be drawn towards the Moon, resulting in a high tide. A second bulge occurs on the opposite side of the Earth, where the centrifugal force from the Earth's rotation around the Earth-Moon center of mass causes another high tide. These tidal bulges are what create the regular rise and fall of ocean levels known as tides.
What is the pull of the moon on earths tidal bulge causing?
The pull of the Moon - and, to a lesser degree, of the Sun - causes "tidal bulges". These bulges of water cause the high tides on Earth. The Moon's gravitational pull on the bulge of water nearest to the Moon, causes the Earth's rotation to very gradually slow down, due to frictional forces. Finally, (because of the need to conserve "angular momentum") it causes the Moon to gradually move away from Earth.
What causes a tidal bulge?
A tidal bulge is primarily caused by the gravitational pull of the moon and the sun on Earth's oceans. As the moon orbits Earth, its gravitational force pulls water toward it, creating a bulge on the side of Earth facing the moon. Simultaneously, a second bulge occurs on the opposite side due to the centrifugal force resulting from the Earth-moon system's rotation. This interplay between gravitational attraction and centrifugal force results in the high and low tides experienced in different coastal areas.
Does Mercury have a tidal bulge?
Yes, Mercury has a tidal bulge because of Sun. The Sun gravitational force on Mercury's surface is more than 17 times than Moon forces Earth.
