![In a non-uniform circular motion, the ratio of tangential to radial acceleration is (r=radius of a circle, v=speed of the particle, $\\alpha $= angular acceleration.A. $\\dfrac{{{\\alpha ^2}{r^2}}}{v} $B. $\\dfrac{{{\\alpha ^2}r}}{{{v^2}}} $C. $\\dfrac ... In a non-uniform circular motion, the ratio of tangential to radial acceleration is (r=radius of a circle, v=speed of the particle, $\\alpha $= angular acceleration.A. $\\dfrac{{{\\alpha ^2}{r^2}}}{v} $B. $\\dfrac{{{\\alpha ^2}r}}{{{v^2}}} $C. $\\dfrac ...](https://www.vedantu.com/question-sets/edf4b141-55d5-4859-bb6d-d685bffa3feb6732723298661901369.png)
In a non-uniform circular motion, the ratio of tangential to radial acceleration is (r=radius of a circle, v=speed of the particle, $\\alpha $= angular acceleration.A. $\\dfrac{{{\\alpha ^2}{r^2}}}{v} $B. $\\dfrac{{{\\alpha ^2}r}}{{{v^2}}} $C. $\\dfrac ...
![NON-uniform Circular Motion * There are TWO components of acceleration: Radial / centripetal : due to the change in direction of velocity Tangential : - ppt download NON-uniform Circular Motion * There are TWO components of acceleration: Radial / centripetal : due to the change in direction of velocity Tangential : - ppt download](https://slideplayer.com/5792632/19/images/slide_1.jpg)
NON-uniform Circular Motion * There are TWO components of acceleration: Radial / centripetal : due to the change in direction of velocity Tangential : - ppt download
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