Centripetal physics/high-school/rotational-motion-universal-gravitation?dictionary=force&did=1087" onclick="getAsistant(this,event,1087,'force');return false;" style="color:#009000;">force is the physics/high-school/rotational-motion-universal-gravitation?dictionary=force&did=1087" onclick="getAsistant(this,event,1087,'force');return false;" style="color:#009000;">force that acts on an object moving in a circular path, directing it towards the physics/high-school/rotational-motion-universal-gravitation?dictionary=center&did=830" onclick="getAsistant(this,event,830,'center');return false;" style="color:#009000;">center of the circle. This physics/high-school/rotational-motion-universal-gravitation?dictionary=force&did=1087" onclick="getAsistant(this,event,1087,'force');return false;" style="color:#009000;">force is necessary to keep the object moving in a curved path rather than a straight line. Centripetal physics/high-school/rotational-motion-universal-gravitation?dictionary=force&did=1087" onclick="getAsistant(this,event,1087,'force');return false;" style="color:#009000;">force is always directed inward and is perpendicular to the physics/high-school/rotational-motion-universal-gravitation?dictionary=velocity&did=1125" onclick="getAsistant(this,event,1125,'velocity');return false;" style="color:#009000;">velocity of the object.
The magnitude of the centripetal physics/high-school/rotational-motion-universal-gravitation?dictionary=force&did=1087" onclick="getAsistant(this,event,1087,'force');return false;" style="color:#009000;">force can be calculated using the following formula:
Fc = (mv^2) / r
Where Fc is the centripetal physics/high-school/rotational-motion-universal-gravitation?dictionary=force&did=1087" onclick="getAsistant(this,event,1087,'force');return false;" style="color:#009000;">force, m is the physics/high-school/rotational-motion-universal-gravitation?dictionary=mass&did=2831" onclick="getAsistant(this,event,2831,'mass');return false;" style="color:#009000;">mass of the object, v is the physics/high-school/rotational-motion-universal-gravitation?dictionary=velocity&did=1125" onclick="getAsistant(this,event,1125,'velocity');return false;" style="color:#009000;">velocity of the object, and r is the radius of the circular path.
Some common examples of centripetal physics/high-school/rotational-motion-universal-gravitation?dictionary=force&did=1087" onclick="getAsistant(this,event,1087,'force');return false;" style="color:#009000;">force include the physics/high-school/rotational-motion-universal-gravitation?dictionary=force&did=1087" onclick="getAsistant(this,event,1087,'force');return false;" style="color:#009000;">force of physics/high-school/rotational-motion-universal-gravitation?dictionary=tension&did=1545" onclick="getAsistant(this,event,1545,'tension');return false;" style="color:#009000;">tension in a swinging pendulum, the physics/high-school/rotational-motion-universal-gravitation?dictionary=force&did=1087" onclick="getAsistant(this,event,1087,'force');return false;" style="color:#009000;">force of physics/high-school/rotational-motion-universal-gravitation?dictionary=friction&did=1093" onclick="getAsistant(this,event,1093,'friction');return false;" style="color:#009000;">friction required to keep a car on a curved road, and the physics/high-school/rotational-motion-universal-gravitation?dictionary=gravitational+force&did=2614" onclick="getAsistant(this,event,2614,'gravitational force');return false;" style="color:#009000;">gravitational force that keeps physics/high-school/rotational-motion-universal-gravitation?dictionary=planets&did=772" onclick="getAsistant(this,event,772,'planet');return false;" style="color:#009000;">planets in physics/high-school/rotational-motion-universal-gravitation?dictionary=orbit&did=817" onclick="getAsistant(this,event,817,'orbit');return false;" style="color:#009000;">orbit around the physics/high-school/rotational-motion-universal-gravitation?dictionary=sun&did=776" onclick="getAsistant(this,event,776,'sun');return false;" style="color:#009000;">sun.
To understand centripetal physics/high-school/rotational-motion-universal-gravitation?dictionary=force&did=1087" onclick="getAsistant(this,event,1087,'force');return false;" style="color:#009000;">force, it's important to grasp the following concepts:
Remember to also familiarize yourself with the units of measurement for each variable in the centripetal physics/high-school/rotational-motion-universal-gravitation?dictionary=force&did=1087" onclick="getAsistant(this,event,1087,'force');return false;" style="color:#009000;">force formula and how to convert between them.
By mastering these concepts, you will have a physics/high-school/rotational-motion-universal-gravitation?dictionary=solid&did=866" onclick="getAsistant(this,event,866,'solid');return false;" style="color:#009000;">solid understanding of centripetal physics/high-school/rotational-motion-universal-gravitation?dictionary=force&did=1087" onclick="getAsistant(this,event,1087,'force');return false;" style="color:#009000;">force and its applications in various real-world scenarios.
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