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The centripetal force kept the car moving in a circular path around the track.
The object is experiencing centripetal acceleration towards the center of the circular path, which is provided by a centripetal force. This force is necessary to keep the object moving in a curved path rather than a straight line tangent to the circle.
Centripetal force is the force that keeps an object moving in a circular path. In a dishwasher, this force is responsible for keeping the water and detergent mixture moving in a circular motion to effectively clean the dishes by preventing them from sliding around and ensuring they are thoroughly washed.
Electrons move in circular paths around the nucleus due to the attraction between the positively charged nucleus and the negatively charged electrons. This attraction generates a centripetal force that keeps the electrons in orbit around the nucleus. Additionally, the wave-like nature of electrons allows them to exist in specific energy levels, or orbitals, around the nucleus.
Yes, a bicycle needs a centripetal force acting towards the center of the curve to change its direction of motion. This force is typically provided by friction between the tires and the road surface, allowing the bike to maintain its trajectory around the curve without sliding out.
The centripetal force acting on a satellite in uniform circular motion around Earth is directed towards the center of Earth. This force is necessary to keep the satellite moving in a circular path instead of following a straight line.
The centripetal force acting on a tether ball swinging around a pole is provided by the tension in the tether. This force is directed towards the center of the circular path the ball is following and is necessary to keep the ball in its circular motion.
Circular motion is the movement of an object in a circular path around a fixed point. The object continuously changes its direction, but its distance from the fixed point remains constant. It is characterized by a centripetal force keeping the object in its circular path.
The centripetal force acting on satellites is gravity, specifically the gravitational force between the satellite and the celestial body it is orbiting. This force pulls the satellite towards the center of the orbit, continuously changing its direction of motion and keeping it in a circular or elliptical orbit around the celestial body.
The centripetal force kept the car moving in a circular path around the track.
direction as it moves around the circle due to the centripetal force acting towards the center. This force causes the object to accelerate continuously, even though the speed may remain constant. As a result, the object experiences changing velocity and acceleration, leading to a dynamic motion.
Circular motion occurs when an object moves in a circular path around a fixed point. This motion is typically caused by a centripetal force that continuously acts towards the center of the circle, keeping the object in its curved trajectory. Circular motion can arise from various factors such as gravitational attraction, tension in a string, or magnetic forces, depending on the situation.
Yes, the direction of circular motion can change continuously as an object moves around a circle. This change in direction is known as angular acceleration and is influenced by external forces acting on the object.
In a circular motion, particles move in a curved path around a central point or axis. This motion is caused by a centripetal force that continuously pulls the particles towards the center of the circle, preventing them from moving in a straight line. The particles maintain their speed but change direction, resulting in a constant circular motion.
The inward force necessary for circular motion to occur is called centripetal force. It acts towards the center of the circle, causing an object to continuously change direction and move in a circular path. Without this force, the object would move in a straight line.
The type of circular motion on a Ferris wheel without stopping is an example of uniform circular motion. In this type of motion, the speed of the object remains constant, but its direction changes continuously, moving in a circle at a consistent rate.
Applying a centripetal force to the particles will cause them to move in a circular motion. This force acts perpendicular to the direction of the particles' motion, allowing them to move in a curved path. The velocity of the particles remains constant, but their direction changes continuously as they revolve around a central point.