A Partial Explanation
First, consider the object moving in a straight line with no forces acting upon it. According to Newton's First law, that object will always move in the same direction, at the same speed, forever. This is inertia.
Now, for that object to move in a circular path, a force must act upon the object. If the force is in opposite direction of the object, the object will eventually slow down, stop, and begin reversing. The degree of slowing depends on duration and amount of force. Similarly, forces in the same direction of the object would increase velocity.
Since the question asks about "uniform" circular motion, we'll assume uniform in both speed and geometry; and a uniform speed shows that no force is acting in the same direction, or the opposite direction of the object.
So far, we know that there an object moving uniformly, and thus there's a force being acted upon it. Yet, we also know that force is neither "forwards or backwards." One more thing is the question asks for circular motion, not globular, so that makes this a two dimensional problem.
So if there are only two dimensions to choose from, and we've eliminated the one the object is moving on, then there can only be a force acting perpendicular to the path of the object. If that path is circular, then that force will always be towards the center of the circle.
Basically, think of the circle not as a long continuous path with constant force (even though it is) but as a whole series of little straight paths with a force knocking it to the side all the time, toward the center of rotation.
"yes move a remote controle car on a patch of low friction ground and move it in acircle. basic physics"I believe the answer above is not true. Newton's first law (basic physics) states:Every object in a state of uniform motion tends to remain in that state ofmotion unless an external force is applied to it.A circular path is not a uniform motion. Moving a car around in a circle means thatit is being accelerated towards the center of the circle. If you could do the aboveexperiment under perfect "frictionless circomstances" then the toy car wouldeventuall come to a stop, without using the brakes (provided the car is not beingpropelled forward by its engine).I'm no scientist, but I do not think it is possible for an object to move in a circularpath without having to accelerate it towards the center of the circle, unless youcan somehow bend time-space (like gravity does).When an object is moving in a circular path, it's constantly changing it's direction.thus the velocity is changing. Change is velocity states that the object is accelerating.=======================================The problem that everybody above this line is having is: They're trying to stayconsistent with the universally held but mistaken idea that 'acceleration' means'speeding up'. It doesn't !'Acceleration' means 'any change in speed or direction of motion'. That could meanspeeding up, slowing down, starting out from a stop, rolling to a stop on grass, ormoving along any path that's not a straight line. They're all 'acceleration'.An object moving in a circular path is constantly changing its direction of motion,so there's acceleration there. An object can not move in a circular path withoutacceleration, because the very bending of the path away from a straight line isacceleration. Regardless of what's happening or not happening to its speed.
A doubly linked list is a linked list in which each node knows where both of its neighbors are.A circular linked list is a linked list in which the "tail" of the list is linked to the "root". (Note that both the tail and root of the list are undefined/arbitrary in a circular linked list)Doubly linked lists are actually not necessarily related to circular linked list (aside from both being based on a linked list structure). In fact, you can have a circular doubly linked list, where each node knows where both of its neighbors are andwhere the list wraps around to connect to itself.
Central place theory was first proposed by the German geographer Walter Christaller in 1933. It aims to explain the spatial distribution of human settlements and the arrangement of services in a hierarchical order based on population size and market areas.
The term "concise answers" refers to providing information succinctly and to the point in a few sentences or less. This approach aims to deliver clear and focused responses without unnecessary elaboration.
PageMaker was a desktop publishing software developed by Adobe Systems, it was one of the first software programs to make it accessible for users to create professional-looking documents such as newsletters, brochures, and flyers. It allowed users to combine text, images, and graphics to create visually appealing layouts. However, it has been discontinued by Adobe in favor of InDesign.
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An object in motion tends to stay in motion and an object in rest tends to stay in rest unless acted upon by an unbalanced force.
Circular motion can be understood using Newton's laws of motion. The first law states that an object will remain in its state of motion unless acted upon by a net external force, which in the case of circular motion is the centripetal force that continuously changes the direction of the object. The second law describes how the centripetal force required for circular motion is related to the mass of the object, its velocity, and the radius of the circular path..TableName:Centripetal force formula.
the law of inertia
Newton's first law of motion helps explain the Coriolis effect. It states that an object in motion will continue moving in a straight line unless acted upon by an external force. This helps explain how the rotation of the Earth influences the movement of air masses that create the Coriolis effect.
Newton's first and third laws of motion don't contribute anything to an understandingof Kepler's laws of planetary motion.Kepler's laws can be derived from Newton's law of universal gravitation, along with hissecond law of motion.
Law of Inertia.
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His First Law and Second Law both do.
It is associated with the law of gravitational pull.
Isaac Newton, he discovered: -Newton's First Law of motion. -Newton's Second Law of motion. -Newton's Third Law of motion.
because newton’s 1st law of motion uses a lot of inertia