Solve part b 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. Includeunits as appropriate below.Alternate pathPath of the CarTheng, 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 thestarting point.(a) How fast is the car going before it starts up the slope?Ufa = 2.83 m/sVfb =(b) How fast is the car going when it is at the top of the slope?

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Description: Solve part b 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. Includeunits as appropriate below.Alternate pathPath of the CarTheng, with

Mass of the toy car, Force constant of the spring, Distance compressed by the spring, Height of the…

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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 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?

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?

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter7: Conservation Of Energy

Section: Chapter Questions

Problem 5P: A block of mass 0.250 kg is placed on top of a light, vertical spring of force constant 5 000 N/m...

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Question

Solve part b

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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Step 1: Write down the data given in the question

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Step 2: To find the energy stored in the spring

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Step 3: To find the kinetic energy of the car before it starts up the slope.

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Step 4: (a) To find the velocity of the car before it starts up the slope

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Step 5: To find the potential energy of the car at the top of the slope

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Step 6: To find the kinetic energy of the car at the top of the slope.

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Step 7: (b) To find the speed of the car when it is at the top of the slope

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