t und ellergy to find the skater's speed after gliding 100 m in this wind. b. What is the minimum value of u, that allows her to continue moving straight north? 50. I You're fishing from a tall pier and have just caught a 1.5 kg fish. As it breaks the surface, essentially at rest, the tension in the vertical fishing line is 16 N. Use work and energy to find the fish's upward speed after you've lifted it 2.0 m. 51. I Hooke's law describes an ideal spring. Many real springs are CALC better described by the restoring force (FSp)s=-kAs -q(As)', %3D where g is a constant. Consider a spring with k = 250 N/m and q3800 N/m³. a. How much work must you do to compress this spring 15 cm? Note that, by Newton's third law, the work you do on the spring is the negative of the work done by the spring. b. By what percent has the cubic term increased the work over what would be needed to compress an ideal spring? Hint: Let the spring lie along the s-axis with the equilibrium position of the end of the spring at s =0. Then As = s. 52. The force acting on a particle is F= Foe %3D x/- ce e¯L. How much work

t und ellergy to find the skater's speed after gliding 100 m in this wind. b. What is the minimum value of u, that allows her to continue moving straight north? 50. I You're fishing from a tall pier and have just caught a 1.5 kg fish. As it breaks the surface, essentially at rest, the tension in the vertical fishing line is 16 N. Use work and energy to find the fish's upward speed after you've lifted it 2.0 m. 51. I Hooke's law describes an ideal spring. Many real springs are CALC better described by the restoring force (FSp)s=-kAs -q(As)', %3D where g is a constant. Consider a spring with k = 250 N/m and q3800 N/m³. a. How much work must you do to compress this spring 15 cm? Note that, by Newton's third law, the work you do on the spring is the negative of the work done by the spring. b. By what percent has the cubic term increased the work over what would be needed to compress an ideal spring? Hint: Let the spring lie along the s-axis with the equilibrium position of the end of the spring at s =0. Then As = s. 52. The force acting on a particle is F= Foe %3D x/- ce e¯L. How much work

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

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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Special Relativity

The theory of special relativity discusses how space and time are related to objects traveling along a straight line at a constant speed. Simply stated, as an object reaches the speed of light, its mass becomes infinite and it is unable to move faster than light. This interstellar speed limit has been the topic of much debate in astronomy, and also in science fiction when people consider how to fly over large distances.

Question

#51

t und ellergy to find the skater's speed after gliding
100 m in this wind.
b. What is the minimum value of u, that allows her to continue
moving straight north?
50. I You're fishing from a tall pier and have just caught a 1.5 kg
fish. As it breaks the surface, essentially at rest, the tension in
the vertical fishing line is 16 N. Use work and energy to find the
fish's upward speed after you've lifted it 2.0 m.
51. I Hooke's law describes an ideal spring. Many real springs are
CALC better described by the restoring force (FSp)s=-kAs -q(As)',
%3D
where g is a constant. Consider a spring with k = 250 N/m and
q3800 N/m³.
a. How much work must you do to compress this spring 15 cm?
Note that, by Newton's third law, the work you do on the
spring is the negative of the work done by the spring.
b. By what percent has the cubic term increased the work over
what would be needed to compress an ideal spring?
Hint: Let the spring lie along the s-axis with the equilibrium
position of the end of the spring at s =0. Then As = s.
52. The force acting on a particle is F= Foe
%3D
x/-
ce
e¯L. How much work

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