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V= \/ 2 m g
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p A CIf you do a theoretical calculation for the terminal velocity of a quarter, it'd only be moving at about 30 or 40 mph or so at best if it were falling flat heads or tails up. If that same quarter however was to fall edge side down, it'd be on the move much faster (maybe 100mph or thereabouts absolute tops), since there'd be less area exposed to the 'wind', and hence less air resistance. Because it will spin as it falls, as noted above, it's actual terminal velocity is likely somewhere in between. I once knew some mischievous boys who chucked a penny off the 86th floor of the Empire State Building (I've heard they've since enclosed the balcony), and as far as i know, there were no injuries below or broken windshields or sidewalks. But I think the penny may have bounced off the side of the building on its descent, though, further slowing its fall.kurushio95 said:2 questions:
What is the terminal velocity of a quarter? and How long does it take a quarter to accelerate to its terminal velocity?
Terminal velocity is the maximum speed that an object can reach when falling through a fluid, such as air or water. It occurs when the force of gravity pulling the object downwards is equal to the force of air resistance pushing the object upwards.
The terminal velocity of a quarter is important because it helps us understand the motion of objects in a fluid environment, such as air. It also allows us to make predictions about how long it will take for an object to fall and how fast it will be moving at impact.
The terminal velocity of a quarter can be calculated using the formula Vt = √(2mg/ρAC), where Vt is the terminal velocity, m is the mass of the quarter, g is the acceleration due to gravity, ρ is the density of air, A is the cross-sectional area of the quarter, and C is the drag coefficient.
Yes, the terminal velocity of a quarter can change in different environments. It is affected by factors such as air density, temperature, and humidity. For example, a quarter would fall faster in a denser environment, such as water, than in air.
Yes, the terminal velocity of a quarter can be changed by altering its mass, surface area, or shape. For example, a heavier quarter will have a higher terminal velocity than a lighter one. Additionally, objects with a streamlined shape will have a lower terminal velocity compared to objects with a more irregular shape.