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What fraction of the moons gravity is the moons gravity?
The moon's gravity is essentially identical to 100% of the moon's gravity, and results in gravitational forces on its surface that average about 16% of the corresponding forces on the Earth's surface.
What forces that sculpture the earth surface?
The primary forces shaping Earth's surface are weathering, erosion, and tectonic activity. Weathering breaks down rocks into smaller pieces, erosion transports these fragments to different locations, and tectonic activity, such as plate movements and volcanic activity, reshapes the land through processes like mountain building and earthquakes. These forces work together to continuously shape and change Earth's surface over time.
Is this sentence correct The surface of Earth is in constant motion because of forces on the planet's surface?
No one answer this, please. It is from their homework, I assigned it to my own class last year. Person who did this: It is very wrong to cheat. You should try and complete your homework independently or with a text book. If you have questions, ask your teacher! That's the only way you will learn it! :) Actually, the sentence is wrong. The correct sentence is: The surface of Earth is in constant motion because of forces inside the planet. :D
How do forces affect the planets of your solar system?
Forces such as gravity and radiation play a key role in shaping the planets within our solar system. Gravity, generated by the mass of each planet, keeps them in motion around the Sun and affects their orbits. Radiation from the Sun can impact a planet's atmosphere, climate, and surface features. These forces contribute to the overall stability and dynamics of the solar system.
Two external forces that change the earth's surface?
Two external forces that change the Earth's surface are weathering, which breaks down rocks and minerals at the Earth's surface, and erosion, which transports the broken-down materials to new locations through processes like wind, water, and ice.
What two forces acting on the ball as it roll?
The two forces acting on a rolling ball are the force of gravity pulling it downward and the normal force exerted by the surface it is rolling on.
What is the relationship between rolled distance and time taken?
If an object is rolling along a plane horizontal surface with no other forces acting on it, then rolled distance is directly proportional to the time taken.If an object is rolling along a plane horizontal surface with no other forces acting on it, then rolled distance is directly proportional to the time taken.If an object is rolling along a plane horizontal surface with no other forces acting on it, then rolled distance is directly proportional to the time taken.If an object is rolling along a plane horizontal surface with no other forces acting on it, then rolled distance is directly proportional to the time taken.
Forces used in a rolling ball?
The main forces acting on a rolling ball are gravity, which pulls the ball downward, and normal force, which acts perpendicular to the surface the ball is rolling on. Additionally, there is friction force between the ball and the surface, which helps propel the ball forward or slow it down depending on the direction of motion.
What forces make marbles roll?
Marbles roll due to a combination of gravitational force pulling them downward and frictional forces between the marble and the surface it is rolling on. If the surface is smooth, gravity will dominate and the marble will roll faster. If the surface is rough, friction may slow down the marble's rolling.
What forces act on a rolling ball?
It acts as a rolling friction or rolling resistance when it starts to roll on a flat surface , it resists the direction of rotation of the object in both clock wise and anti clock wise direction.
What frictional forces are at work?
Frictional forces include static friction (preventing movement), kinetic friction (opposing motion), rolling friction (resistance between rolling surfaces), and fluid friction (resistance in fluids). These forces arise from the interaction between two surfaces in contact and can vary based on factors such as surface roughness and the nature of the materials involved.
According to Aristotle an object with no forces in it will?
An object with no forces in it will eventually stop moving, according to Aristotle. Aristotle was a Greek philosopher. He was born in 384 BCE.
What is the relationship between rolling friction and bouncing friction?
Rolling friction occurs when an object rolls over a surface, leading to less resistance compared to sliding friction. Bouncing friction, on the other hand, describes the resistance experienced when an object bounces or rebounds off a surface. Although both involve frictional forces, rolling friction is generally lower than bouncing friction due to the smoother interaction between the rolling object and the surface.
Why does an object stop rolling?
The small amount of friction of the wheel molecules rubbing against the surface molecules is called "rolling friction". Also, the object itself has aerodynamic resistance as it pushes it's way through the air. The combination of these two sources of drag eventually slows and stops a rolling object (on a flat surface).
Why rolling friction is less than sliding friction?
Rolling friction is the force of friction between two surfaces when one surface rolls over another.Sliding friction is the force of friction between two surfaces when one surface is moving on another.
Is surface tension responsible for wave formation?
No, surface tension is not responsible for wave formation in bodies of water. Waves are typically formed by the interaction of wind with the water's surface, causing the water to move in a rolling motion. Surface tension, which is the result of cohesive forces between water molecules at the surface, does not generate waves.
What are forces that cause a CO2 dragster to slow down?
Some forces that cause a CO2 dragster to slow down include air resistance (drag) pushing against the car as it moves forward, friction between the wheels and the surface of the track, and rolling resistance from the wheels interacting with the surface. These forces act in opposition to the forward motion of the car, causing it to decelerate.
