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Tidal forces in general are the result of?
Tidal forces are caused by the gravity of the moon pulling on the water. Therefore when the moon is out, the tidal forces will be stronger. Also, nights in which supermoons occur would most likely have a significant change.
How forces affects motion?
If force is applied in the line of motion, then motion will increase, but when it is applied opposite to the line of motion, then motion will decrease.
Where the energy comes tidal energy?
Tidal energy is created by the gravitational forces of the moon and sun on the Earth's oceans, causing tides to rise and fall. This movement of water generates kinetic energy that can be harnessed and converted into electricity using tidal energy technologies such as tidal turbines or barrages.
What are examples of forces that require contact to have an effect?
Examples of forces that require contact to have an effect include frictional forces, normal forces, tension forces, and spring forces. These forces rely on physical contact between objects to exert their influence.
What are the limitations of using tidal energy?
Tidal energy is only available on the coast. Some locations are better than others for tidal energy because of the tidal range - for example, the North West of Australia has a very large tidal range.Converting tidal energy to electrical energy may require the construction of channels or barrages which may impact on the environment.
Which parameter has a greater effect on tidal forces on earth?
The primary factor that affects tidal forces on Earth is the gravitational pull between the Earth, the Moon, and the Sun. The distance between the Earth and the Moon is the most crucial parameter that influences the strength of tidal forces.
Which celestial body has a greater effect on tidal forces on earth?
The moon has a greater effect on tidal forces on Earth compared to the sun. This is because the moon is closer to Earth and exerts a stronger gravitational pull, causing the tides to be primarily influenced by the moon's position.
What are the effects of a supernova on earth tides?
I don't think it should have any effect. The tides are caused by nearby objects, especially the Moon and the Sun. The tidal forces are (approximately) inversely proportional to the thirdpower of the distance, so although the Sun attracts us stronger than the Moon, the Moon has a greater influence on the tides. A far-away object should have no noticeable effect on the tides.I don't think it should have any effect. The tides are caused by nearby objects, especially the Moon and the Sun. The tidal forces are (approximately) inversely proportional to the thirdpower of the distance, so although the Sun attracts us stronger than the Moon, the Moon has a greater influence on the tides. A far-away object should have no noticeable effect on the tides.I don't think it should have any effect. The tides are caused by nearby objects, especially the Moon and the Sun. The tidal forces are (approximately) inversely proportional to the thirdpower of the distance, so although the Sun attracts us stronger than the Moon, the Moon has a greater influence on the tides. A far-away object should have no noticeable effect on the tides.I don't think it should have any effect. The tides are caused by nearby objects, especially the Moon and the Sun. The tidal forces are (approximately) inversely proportional to the thirdpower of the distance, so although the Sun attracts us stronger than the Moon, the Moon has a greater influence on the tides. A far-away object should have no noticeable effect on the tides.
What effect of the tidal forces on th rotation of the moon?
None, its the other way around: The Moon influences the tides on Earth
Why is solar gravity only a secondary source of tidal range when the sun is so much larger than the moon?
Tidal forces depend on both the mass of the object and the distance from it. Tidal forces are directly proportional to mass and inversely proportional to the cube of the distance. This means that changes in distance have a greater effect than changes in mass. The sun is about 27 million times more massive than the moon is, but is also about 390 times farther away. If you do that math on this, it works out that the moon exerts roughly twice the tidal force on Earth that the sun does.
What produces tidal range?
the combined forces of the sun and the moon on Earth produces tidal ranges.
Why was Alfred wegeners idea that tidal forces might cause continental drift refuted as impossible?
Alfred Wegener's idea that tidal forces could cause continental drift was refuted as impossible because tidal forces act on ocean water, not solid land masses. The forces required to move continents are much greater than those caused by tides. Additionally, there was no mechanism known at the time to explain how tides could cause such significant movement of continents.
Does venus mars or mercury have tidal forces?
Phobos and Deimos are small moons of Mars, and consequently the tidal forces are extremely weak. Venus and Mercury have no moons, but are still subject to the tidal forces of the sun, and in both cases these forces are considerably larger than they are on Earth (solar tidal forces on the Earth noticeably affect sea levels). It's also worth noting that tidal forces affect the entire planet (think of a tennis ball being squeezed - in this case the squeezing is caused by the gravitational attraction of the sun).
Why does the moon exert a greater influence than the sun?
Tidal forces decrease rather quickly with increasing distance. While the moon is much less massive than the sun, it is also far closer, and therefore has a stronger tidal influence.
Does tidal power effect education?
no.
Which of the following is not due to tidal forces?
The formation of mountains is not due to tidal forces. Mountains are typically formed by tectonic plate movements, volcanic activity, and erosion over long periods of time. Tidal forces primarily affect ocean tides and can cause tidal locking in celestial bodies.
The sun and the moon have relatively equal tide-generating forces on Earth?
It is not. The Sun has much more mass, therefore it has a greater gravitational attraction.The Sun has more gravitational attraction on Earth than the Moon, despite its farther distance. However, the effect on the tides is less, in the case of the Sun - tidal forces obey an inverse cube law, more or less.It is not. The Sun has much more mass, therefore it has a greater gravitational attraction.The Sun has more gravitational attraction on Earth than the Moon, despite its farther distance. However, the effect on the tides is less, in the case of the Sun - tidal forces obey an inverse cube law, more or less.It is not. The Sun has much more mass, therefore it has a greater gravitational attraction.The Sun has more gravitational attraction on Earth than the Moon, despite its farther distance. However, the effect on the tides is less, in the case of the Sun - tidal forces obey an inverse cube law, more or less.It is not. The Sun has much more mass, therefore it has a greater gravitational attraction.The Sun has more gravitational attraction on Earth than the Moon, despite its farther distance. However, the effect on the tides is less, in the case of the Sun - tidal forces obey an inverse cube law, more or less.
