Multiple ChoiceA mass swinging at the end of a pendulum has a speed of 1.32m/s at the bottom of its swing. At the top of its swing, it makes a 9° with the vertical. What is the length of the pendulum?598views2rank6comments
Textbook Question(II) A 0.735-kg block oscillates on the end of a spring whose spring constant is k = 41.0 N/m . The mass moves in a fluid which offers a resistive force F = ― bv, where b = 0.662 N • s/m .(a) What is the period of the motion?163views
Textbook Question(II) A vertical spring of spring constant 115 N/m supports a mass of 58 g. The mass oscillates in a tube of liquid. If the mass is initially given an amplitude of 5.0 cm, the mass is observed to have an amplitude of 2.0 cm after 3.5 s. Estimate the damping constant b. Neglect buoyant forces.163views
Textbook Question(II) An 1150-kg automobile has springs with k = 14,000 N/m . One of the tires is not properly balanced; it has a little extra mass on one side compared to the other, causing the car to shake at certain speeds. If the tire radius is 42 cm, at what speed will the wheel shake most?195views
Textbook Question(III) The amplitude of a driven harmonic oscillator reaches a value of 23.7 F₀ / k at a resonant frequency of 418 Hz. What is the Q value of this system?173views
Textbook QuestionAn energy-absorbing car bumper has a spring constant of 410 kN/m. Find the maximum compression of the bumper if the car, with mass 1300 kg, collides with a wall at a speed of 2.0 m/s (approximately 5 mi/h ).181views
Textbook QuestionA 350 g mass on a 45-cm-long string is released at an angle of 4.5° from vertical. It has a damping constant of 0.010 kg/s. After 25 s, (a) how many oscillations has it completed and (b) what fraction of the initial energy has been lost?424views
Textbook Question(III) A glider on an air track is connected by springs to either end of the track (Fig. 14–41). Both springs have the same spring constant, k, and the glider has mass M.(k = 125 N/m and M = 215 g).(c) How long does it take the amplitude to decrease to one-quarter of its initial value?<IMAGE>133views
Textbook Question(II) A 0.735-kg block oscillates on the end of a spring whose spring constant is k = 41.0 N/m . The mass moves in a fluid which offers a resistive force F = ― bv, where b = 0.662 N • s/m .(c) Write the displacement as a function of time if at t = 0, 𝓍 = 0, and at t = 1.00 s, 𝓍 = 0.120 m .171views
Textbook Question(II) Estimate how the damping constant changes when a car’s shock absorbers get old and the car bounces three times after going over a speed bump.146views
Textbook Question(III) By direct substitution, show that Eq. 14–22, with Eqs. 14–23 and 14–24, is a solution of the equation of motion (Eq. 14–21) for the forced oscillator. [Hint: To find sin θ and cos θ from tan θ, draw a right triangle.]124views