Thursday, May 30, 2019

Physics of How Tires Throw Rocks :: physics tire rock

Many of us have gotten rock chips, but how more of us understand how those pesky rocks hit our windshield? A common misconception is that the car in front of us throws rocks backward and hits the following cars windshield. A curlicue tire cannot throw a rock backwards. A tire is a rolling object, thus every point along the tire is moving forwards. thither is no force going in a backwards direction. Only direction part of a rolling object can go is a combination of up or down, and forward.The f number of the rock at any given point can be determined by adding its translational velocity at the center of mass (the orange arrow) with its rotational velocity.Vrock= Vcenter of mass + Wrock Where V is the translational velocity, and W is the angular velocityThis can be simplified to Vrock=WDR Where D is the distance from the road at the point of contact in terms of R, the Radius. That is to say, that the velocity at the carrousel of the tire would be Vrock=W(2R) =2VcenterThat is to s ay, that the rock at the top of the tire may be going twice as fast as car itself. Similarly, at the point of contact of with the road, the velocity of the rock is 0.So this leaves one to ask, how do those pesky rocks get thrown at a windshield? If it is hit by the following car, then it is because the rock was thrown jolly vertically, slowed down by air resistance and the car behind it ran into the rock.It can also be hit by a car going in the opposite direction. The magnitude of this collision will be much greater because it involves objects going in opposing directions. This is why the worse rock chips are oftentimes from cars going in the opposite direction, and why it is possible to throw rocks at yourself, which often do not do any damage.Tires are thrown from tires because the centrifugal force expels snow, rocks, and other foreign objects.

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