* A mass of 5.0 kg slides down a frictionless slope into a spring with spring constant k (a) If the spring experiences a maximum compression of 20 cm, what is the height h of the initial release point? (b) What is the velocity of the mass when the spring has been compressed 15 cm? (c) If the mass sticks to the end of the spring, what are the period and amplitude of the oscillations that take place? (d) Determine the expressions for position as a function of time, x(t), and veloc- ity as a function of time, v(t), for this oscillator. (e) What is the maximum velocity of the mass during any oscillation? (f) If the spring were to break while the mass is at the equilibrium posi- tion and moving to the right, to what maximum height would the mass rise up the slope? (g) Sketch or plot the position-time graph and velocity-time graph for the first second of the periodic motion. 4.9 kN/m as depicted in Figure P11.65. wave, Chap ves (including light sited and developed fur k www Figure P11.65

* A mass of 5.0 kg slides down a frictionless slope into a spring with spring constant k (a) If the spring experiences a maximum compression of 20 cm, what is the height h of the initial release point? (b) What is the velocity of the mass when the spring has been compressed 15 cm? (c) If the mass sticks to the end of the spring, what are the period and amplitude of the oscillations that take place? (d) Determine the expressions for position as a function of time, x(t), and veloc- ity as a function of time, v(t), for this oscillator. (e) What is the maximum velocity of the mass during any oscillation? (f) If the spring were to break while the mass is at the equilibrium posi- tion and moving to the right, to what maximum height would the mass rise up the slope? (g) Sketch or plot the position-time graph and velocity-time graph for the first second of the periodic motion. 4.9 kN/m as depicted in Figure P11.65. wave, Chap ves (including light sited and developed fur k www Figure P11.65

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter2: Vectors

Section: Chapter Questions

Problem 2.9CYU: Check Your Understanding Suppose that Balto in Example 2.10 leaves the game to attend to more...

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