1. What is the relationship that exists between the period and the frequency? 2. What should...
1. What is the relationship that exists between the period and the frequency?
2. What should be the units of the spring constant if the force is in Newtons and the elongation is in meters?
3. How does the simple pendulum illustrate the conservation of energy?
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1. What is the relationship that exists between the period and
the frequency?
2. What should...
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What is the relationship between wave frequency and period? If the frequency of a wave doubles, what happens to its period? If the period doubles, what happens to the frequency?What are beats? How are beats related to frequency? A piano tuner hears three beats per second when a tuning fork and a note are sounded together and six beats per second after the string is tightened. What should the tuner do next, tighten or loosen the string? Explain your answer.What...
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the extra question i cant get 3. A concrete cube, 0.5 meters on each side, is...
the extra question i cant get
3. A concrete cube, 0.5 meters on each side, is lowered beneath the surface of Seneca Lake. At what depth is the water around it exerting an inward force of 1.7x10 newtons on each face of the cube? 69.4m 4. A 0.5 kg block is attached to a spring and oscillates on a horizontal frictionless surface in the usual way with an amplitude of 0.085 meters. The spring constant is 125 N/m and the...
2. cm then released. A50 gram mass at rest stretches a spring by 2.5 cm. The spring is further st...
2. cm then released. A50 gram mass at rest stretches a spring by 2.5 cm. The spring is further stretched by 1.4 a) b) Assuming simple harmonic motion (with no drag), what is the frequency of the spring? If the drag coefficient r was 10 Hz, what is the frequency of the spring? If the frequency of the spring is 3 Hz, what is the drag coefficient r? c) Note: The units of the coefficient of resistance 2mr are force...
Exercise 11: Simple Harmonic Motion 1. A spring-mass system oscillates with a frequency of 10 Hz...
Exercise 11: Simple Harmonic Motion 1. A spring-mass system oscillates with a frequency of 10 Hz when the mass is equal to 0.50 kg. What is the stiffness of the spring? With the same spring, what would the mass need to be to double the frequency? 2. A pendulum swings with a period of 1.50 seconds when the acceleration due to gravity is equal to 9.80 m/s? What is the length of the pendulum? How would this period change if...
1. The longer the pendulum the __________ the period of oscillation. Group of answer choices longer...
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1. The position of an object is given by the function F(t) -cos(0.250.5) (a) What is...
1. The position of an object is given by the function F(t) -cos(0.250.5) (a) What is the amplitude, frequency, and period of the motion? (b) What is the position of the object at t-0s and 0.2s? (c) Plot F(t) as a function of t, for 0 st 4π 2. The position of the motion of the bob in a simple pendulum in radians is given by What is the amplitude, frequency, and period of the motion? 3. A man enters...
3) In lab 11, you found the relationship between the force exerted by a spring and...
3) In lab 11, you found the relationship between the force exerted by a spring and its length to determine the spring constant. You could also do this using simple harmonic motion. a. Describe an experiment you could do to find a spring constant using simple harmonic motion. What would you measure, and how would you average your measurements? b. Pretending you did the lab this way, make up reasonable measurements and compute the spring constant for those measurements.
1. What is a linear restoring force? 2. What type of force must be acting to produce simple harmonic motion? 3. If a pendulum is to undergo simple harmonic motion, should its displacement angle be large or small? 4. To what is the frequency of oscillation of a pendulum equal? 5. To what is the frequency of oscillation of a mass, m. suspended from a spring of mass, mis equal?
the extra question i cant get
3. A concrete cube, 0.5 meters on each side, is lowered beneath the surface of Seneca Lake. At what depth is the water around it exerting an inward force of 1.7x10 newtons on each face of the cube? 69.4m 4. A 0.5 kg block is attached to a spring and oscillates on a horizontal frictionless surface in the usual way with an amplitude of 0.085 meters. The spring constant is 125 N/m and the...
2. cm then released. A50 gram mass at rest stretches a spring by 2.5 cm. The spring is further stretched by 1.4 a) b) Assuming simple harmonic motion (with no drag), what is the frequency of the spring? If the drag coefficient r was 10 Hz, what is the frequency of the spring? If the frequency of the spring is 3 Hz, what is the drag coefficient r? c) Note: The units of the coefficient of resistance 2mr are force...
Exercise 11: Simple Harmonic Motion 1. A spring-mass system oscillates with a frequency of 10 Hz when the mass is equal to 0.50 kg. What is the stiffness of the spring? With the same spring, what would the mass need to be to double the frequency? 2. A pendulum swings with a period of 1.50 seconds when the acceleration due to gravity is equal to 9.80 m/s? What is the length of the pendulum? How would this period change if...
1. The position of an object is given by the function F(t) -cos(0.250.5) (a) What is the amplitude, frequency, and period of the motion? (b) What is the position of the object at t-0s and 0.2s? (c) Plot F(t) as a function of t, for 0 st 4π 2. The position of the motion of the bob in a simple pendulum in radians is given by What is the amplitude, frequency, and period of the motion? 3. A man enters...
3) In lab 11, you found the relationship between the force exerted by a spring and its length to determine the spring constant. You could also do this using simple harmonic motion. a. Describe an experiment you could do to find a spring constant using simple harmonic motion. What would you measure, and how would you average your measurements? b. Pretending you did the lab this way, make up reasonable measurements and compute the spring constant for those measurements.
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