The molecules in solids are more solidly held in place; so they are not as easy to move. The molecules in liquids are not fixed, but are free to move around; so they can be pulled more easily.
Why is the moon's pull more noticeable in liquids than in solids?
The gravitational pull on liquids can be more noticeable than on solids because liquids are less rigid and have the ability to flow and deform. This allows liquids to respond more readily to the gravitational force, creating noticeable effects such as waves, tides, and the movement of liquids in containers. Solids, on the other hand, typically have a fixed shape and are less responsive to gravitational forces.
The force of gravity is a mutual attraction; the Earth pulls on you, and you pull on the Earth. Of course, the effect on you is more noticeable, given the difference in weight.
No. Anything with mass exerts a gravitational pull. The strength of that pull is directly proportional to an object's mass and most objects do not have enough mass of their gravity to be noticeable. It starts to become noticeable with objects on the level of large asteroids and comets and small moons. Stars, which are far more massive than planets, have far stronger gravity. Black holes have the strongest gravity in the universe.
You have the same mass anywhere, but you weigh more or less on a planet depending on the gravitaional pull of the planet. The more gravitational pull, the more you weigh. The gravitational pull depends on the size of the planet. The bigger the planet, the more gravitaional pull.
Why is the moon's pull more noticeable in liquids than in solids?
Liquids are easier to move around more.
The gravitational pull on liquids can be more noticeable than on solids because liquids are less rigid and have the ability to flow and deform. This allows liquids to respond more readily to the gravitational force, creating noticeable effects such as waves, tides, and the movement of liquids in containers. Solids, on the other hand, typically have a fixed shape and are less responsive to gravitational forces.
The force of gravity is a mutual attraction; the Earth pulls on you, and you pull on the Earth. Of course, the effect on you is more noticeable, given the difference in weight.
It is surface tension.
Surface tension.
cohesion/ cohesive forces
Yes
there is a great pull between the molecules!
Surface tension
It is surface tension.
Yes! P-waves are indeed compression or longitudinal waves which push the crust together and pull it apart as they travel. They are also able to travel through liquids and gasses, unlike S-waves (shear or transverse waves) which can only travel through solids.