A toy car of mass 0.05 kg is propelled by a compressed spring as shown in the following figure. Treat the effect of air resistance and friction to be negligible. Include units as appropriate below. Alternate path Vfb = Path of the Car The spring, with a force constant of 250 N/m, is initially compressed by 4.0 cm. The car follows the track labelled "Path of the Car" that rises h = 15 cm above the starting point. (a) How fast is the car going before it starts up the slope? Ufa = 2.83 m/s (b) How fast is the car going when it is at the top of the slope?

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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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A toy car of mass 0.05 kg is propelled by a compressed spring as shown in the following figure. Treat the effect of air resistance and friction to be negligible. Include
units as appropriate below.
Alternate path
Path of the Car
The
ng, with a force constant of 250 N/m, is initially compressed by 4.0 cm. The car follows the track labelled "Path of the Car" that rises h = 15 cm above the
starting point.
(a) How fast is the car going before it starts up the slope?
Ufa = 2.83 m/s
Vfb =
(b) How fast is the car going when it is at the top of the slope?
Transcribed Image Text:A toy car of mass 0.05 kg is propelled by a compressed spring as shown in the following figure. Treat the effect of air resistance and friction to be negligible. Include units as appropriate below. Alternate path Path of the Car The ng, with a force constant of 250 N/m, is initially compressed by 4.0 cm. The car follows the track labelled "Path of the Car" that rises h = 15 cm above the starting point. (a) How fast is the car going before it starts up the slope? Ufa = 2.83 m/s Vfb = (b) How fast is the car going when it is at the top of the slope?
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