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If the mass m increases by a factor of 2, the angular frequency of oscillation of the mass __. Question 1.is doubled 2.is multiplied by a factor of 2 1/2.

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Presentation on theme: "If the mass m increases by a factor of 2, the angular frequency of oscillation of the mass __. Question 1.is doubled 2.is multiplied by a factor of 2 1/2."— Presentation transcript:

1 If the mass m increases by a factor of 2, the angular frequency of oscillation of the mass __. Question 1.is doubled 2.is multiplied by a factor of 2 1/2 3.is halved 4.is multiplied by a factor of 1/2 1/2 A “mass on a spring” problem consists of a mass m attached to a spring with a spring constant k.

2 The angular frequency of oscillation of the mass is __ rad/s. Question 1. 2 2. 10 3. 60 4.100 A “mass on a spring” problem consists of a 2.0 kg mass attached to a spring with a spring constant of 200 N/m.

3 The period of the oscillation is __ s. Question 1. 1.0 2. 1.5 3. 2.0 4. 3.1 An oscillating mass has a position x versus time t given by x = (0.5 m) cos[(3.1 rad/s) t + 0.1 rad]

4 The maximum speed of the mass as time passes is __ m/s. Question 1. 1.5 2. 3.1 3. 6.3 4.12.6 A 0.20 kg mass undergoes simple harmonic motion along the x-axis as shown.

5 The maximum magnitude of the acceleration of the mass as time passes is __ m/s 2. Question 1. 3.8 2. 5.6 3. 7.3 4. 9.9 A 0.20 kg mass undergoes simple harmonic motion along the x-axis as shown. T = 2.0 s  =  rad/s

6 The kinetic energy of the mass is maximum at time t = __ s. Question 1. 0.00 2. 0.25 3. 0.50 4. 0.75 A 0.20 kg mass undergoes simple harmonic motion along the x-axis as shown. T = 2.0 s  =  rad/s

7 The potential energy of the system is maximum at time t = __ s. Question 1. 0.00 2. 0.25 3. 0.50 4. 0.75 A 0.20 kg mass undergoes simple harmonic motion along the x-axis as shown. T = 2.0 s  =  rad/s

8 The mechanical energy of the oscillator is ___ J. Question 1. 1.0 2. 3.8 3. 5.6 4. 8.2 A 0.20 kg mass undergoes simple harmonic motion along the x-axis as shown. T = 2.0 s  =  rad/s

9 The simple pendulum Ifthan mg L Example:

10 Example: A person swings on a swing. When the person sits still, the swing moves back and forth at its natural frequency. If, instead, the person stands on the swing, the new natural frequency of the swing is: A. Greater B. The same C. Smaller If the person stands, L becomes smaller. Example: Grandpa decides to move to the Moon, and he naturally takes his old pendulum clock with him. But gravity on the Moon is approximately g/6... As a result, his clock is: A. Too fastB. Too slow C. Too fast until Noon, too slow after noon The period of the pendulum is longer on the Moon. So each “second according to this clock” is then longer than a real second.

11 The simple pendulum (method 2) mg L L The physical pendulum (a rigid body that oscillates about an axis) L - distance between CM and suspension point I - moment of inertia about suspension point

12 Example: A rod of length 6L long has a disk with r = L attached to it. The disk can be positioned along the rod’s length. Both the rod and the disk have mass m. The distance between the center of the disk and the pivot point is 3L in case A and 5L in case B. Find the ratio ω A /ω B. pivot 3L3L 5L5L 6L6L r=Lr=L Case A Case B A: B:

13 Lowering the disk increases the period (ie, slows the pendulum down). This is how you tune a grandfather clock. (Ok, maybe not this one…)

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