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What are the factors on which centipetal force depends?
Centripetal force depends on the mass of the object in circular motion, the speed of the object, and the radius of the circular path. It is directed towards the center of the circle to keep the object moving in a curved path.
What does centipetal force describe and detail?
Centripetal force is the force that keeps an object moving in a circular path. It acts towards the center of the circle and is required to maintain the object's direction as it moves around the curve. Without centripetal force, the object would move in a straight line tangent to the circle.
What furnishes centipetal force of earth to go around it?
The centripetal force keeping Earth in orbit around the Sun is mainly due to the gravitational pull between the two bodies. As the Sun pulls on Earth, Earth also exerts an equal and opposite gravitational force on the Sun, causing both to orbit around their common center of mass. This balance of forces results in Earth's elliptical path around the Sun.
What statement best describe gravity acting as centripetal force?
Gravity acts as a centripetal force when it pulls an object towards the center of rotation in a circular motion, keeping the object moving in a curved path instead of a straight line. This allows the object to continually change direction without breaking away from the circular path, achieving dynamic equilibrium.
What are examples of centipetal acceleration?
Examples of centripetal acceleration include a car moving around a curve, a spinning top, or a satellite orbiting around Earth. These objects experience centripetal acceleration because their velocity is constantly changing direction towards the center of the circular path they follow.
What is the centipetal force acting on a plane which is in the circular motion in the sky?
mv^2/r
What are the factors on which centipetal force depends?
Centripetal force depends on the mass of the object in circular motion, the speed of the object, and the radius of the circular path. It is directed towards the center of the circle to keep the object moving in a curved path.
What does centipetal force describe and detail?
Centripetal force is the force that keeps an object moving in a circular path. It acts towards the center of the circle and is required to maintain the object's direction as it moves around the curve. Without centripetal force, the object would move in a straight line tangent to the circle.
What furnishes centipetal force of earth to go around it?
The centripetal force keeping Earth in orbit around the Sun is mainly due to the gravitational pull between the two bodies. As the Sun pulls on Earth, Earth also exerts an equal and opposite gravitational force on the Sun, causing both to orbit around their common center of mass. This balance of forces results in Earth's elliptical path around the Sun.
What statement best describe gravity acting as centripetal force?
Gravity acts as a centripetal force when it pulls an object towards the center of rotation in a circular motion, keeping the object moving in a curved path instead of a straight line. This allows the object to continually change direction without breaking away from the circular path, achieving dynamic equilibrium.
What are examples of centipetal acceleration?
Examples of centripetal acceleration include a car moving around a curve, a spinning top, or a satellite orbiting around Earth. These objects experience centripetal acceleration because their velocity is constantly changing direction towards the center of the circular path they follow.
What are 10 examples of action-at-a-distance force?
Gravitational force Magnetic force Electric force Nuclear force Electrostatic force Tension force in a rope Friction force Spring force Drag force Buoyant force
How many force are there?
3300 salamander
Would a curved universe require a centipetal force to keep galaxies on its nonrectilinear surface?
No. You obviously misuderstand the concept of a "curved" universe, probably imagining it like the 2-D surface on a 3-D sphere. This actually isn't too bad of a way to view it, but it has its problems -- caused mainly by taking the mathematical analogy too far. A Friedmann Universe -- ie, one like the one we're now in -- can be mathematically curved but without a surface, and without any other dimension into which this curvature is (well) curving. Even in a universe that was 2-D and closed (ie, a sphere), and its mass was constrained to the surface of a sphere, then no force would be needed to keep that mass on the surface. That mass could no more leave the surface of the sphere then you could walk outside of the three spatial dimensions of our Universe.
What are 10 examples of non-contact forces?
Gravitational force Electrostatic force Magnetic force Nuclear force Tension force Frictional force Normal force Buoyant force Air resistance force Elastic force
Is centri petal force pseudo force?
No. The centrifugal force is a pseudoforce or a ficticious force; the centripetal force is a real force.
What is the net force on the force gauge?
If the force gauge isn't moving, the the net force must needs be zero.
