Chat with AIExam 14: Oscillations
Exam 1: Systems of Measurement86 Questions
Exam 2: Motion in One Dimension83 Questions
Exam 3: Motion in Two and Three Dimensions60 Questions
Exam 4: Newtons Laws106 Questions
Exam 5: Applications of Newtons Laws73 Questions
Exam 6: Work and Energy60 Questions
Exam 7: Conservation of Energy56 Questions
Exam 8: Systems of Particles and Conservation of Linear Momentum92 Questions
Exam 9: Rotation105 Questions
Exam 10: Conservation of Angular Momentum66 Questions
Exam 11: Gravity84 Questions
Exam 12: Static Equilibrium and Elasticity58 Questions
Exam 13: Fluids77 Questions
Exam 14: Oscillations126 Questions
Exam 15: Wave Motion112 Questions
Exam 16: Superposition and Standing Waves87 Questions
Exam 17: Temperature and the Kinetic Theory of Gases78 Questions
Exam 18: Heat and the First Law of Thermodynamics100 Questions
Exam 19: The Second Law of Thermodynamics59 Questions
Exam 20: Thermal Properties and Processes50 Questions
Exam 21: The Electric Field I: Discrete Charge Distributions55 Questions
Exam 22: The Electric Field Ii: Continuous Charge Distributions64 Questions
Exam 23: Electric Potential87 Questions
Exam 24: Capacitance63 Questions
Exam 25: Electric Current and Direct-Current Circuits107 Questions
Exam 26: The Magnetic Field33 Questions
Exam 27: Sources of the Magnetic Field86 Questions
Exam 28: Magnetic Induction56 Questions
Exam 29: Alternating-Current Circuits106 Questions
Exam 30: Maxwells Equations and Electromagnetic Waves57 Questions
Exam 31: Properties of Light82 Questions
Exam 32: Optical Images106 Questions
Exam 33: Interference and Diffraction91 Questions
Exam 34: Wave Particle Duality and Quantum Physics140 Questions
Exam 35: Applications of the Schrodinger Equation42 Questions
Exam 36: Atoms113 Questions
Exam 37: Molecules39 Questions
Exam 38: Solids and the Theory of Conduction75 Questions
Exam 39: Relativity82 Questions
Exam 40: Nuclear Physics107 Questions
Exam 41: Elementary Particles and the Beginning of the Universe68 Questions
Select questions type
Use the following to answer the question: 
-The object in the diagram is in circular motion.Its position at t = 0 was (A,0).Its frequency is f.The y component of its position is given by
-The object in the diagram is in circular motion.Its position at t = 0 was (A,0).Its frequency is f.The y component of its position is given by (Multiple Choice)
4.8/5 
(20)
(20) The force constant of a massless spring is 25.0 N/m.A mass of 0.45 kg is oscillating in simple harmonic motion at the end of the spring with an amplitude of 0.32 m.The maximum speed of the mass is
(Multiple Choice)
4.9/5 (37)
(37) An object is moving with simple harmonic motion.When the object is displaced 5 cm from its equilibrium point,its velocity is 15.0 cm/s.Calculate the amplitude of motion if its period of motion is 3.0 s.
(Multiple Choice)
4.8/5 (42)
(42) You have landed your spaceship on the moon and want to determine the acceleration due to gravity using a simple pendulum of length 1.0 m.If the period of this pendulum is 5.0 s,what is the value of g on the moon?
(Multiple Choice)
4.7/5 (37)
(37) A light spring stretches 0.13 m when a 0.35-kg mass is hung from it.The mass is pulled down from this equilibrium position an additional 0.12 m and is released.Determine the spring constant k and the amplitude of vibration.
(Multiple Choice)
4.7/5 (29)
(29) A giant simple pendulum has a time period of 5.0 s.If the time period is changed to 4.5 s,calculate the change in the length of the string if g is constant at 9.81 m/s2.
(Multiple Choice)
4.9/5 (33)
(33) 
Filters
- Essay(0)
- Multiple Choice(0)
- Short Answer(0)
- True False(0)
- Matching(0)