The two main restoring forces for tides are gravitational forces from the Moon and the Sun. These forces create bulges in the Earth's oceans, causing high and low tides as the Earth rotates within this gravitational field.
No, the sun is not moving closer to the Earth. The distance between the Earth and the sun remains relatively constant due to gravitational forces that keep the two bodies in their respective orbits.
Gravity and inertia work together to keep planets in orbit around the sun. Gravity from the sun pulls the planets towards it, while the planets' inertia keeps them moving forward in their orbits.
The sun maintains its size and shape through a balance of forces. Gravity pulls inward, trying to collapse it, while nuclear fusion at its core generates energy that pushes outward. These two opposing forces create an equilibrium that sustains the sun's size and shape.
When the gravitational forces of the Sun and the Moon combine, it results in tidal forces on Earth. These tidal forces cause the ocean water to bulge out towards the Sun and the Moon, creating high and low tides. The Sun and Moon's gravitational forces work together to influence the Earth's tides in a complex way.
The only forces that act on the earth's plates are the Sun, the Moon and the molten inner core of the earth itself.
The forces add together.
When two forces act in the same direction, they will combine to produce a resulting force equal to the sum of the individual forces. This combined force will act in the same direction as the individual forces.
Tension and compression are the two forces that act upon a bridge.
When two forces of equal magnitude act in opposite directions on an object, it is called balanced forces. This results in no change in the object's motion.
No, when two forces act in the same direction, they combine to produce a stronger net force in that direction. Combining forces in the same direction increases the overall force acting on an object.
That depends on the direction of the forces. If the two forces act in the same direction, the resultant force will be doubled and if the two forces act in the oppsite direction, the resultant force will be null or zero.
Parallel
upthrust & newtons
The two types of push forces are tension and compression. Tension forces act to pull an object outward, while compression forces act to push an object inward.
balanced Forces
Two forces that act on a projectile are gravity, which pulls the projectile downwards, and air resistance, which opposes the projectile's motion through the air.