Homework Answers
a) F moment of inertia and moment of mass are defined in a different way.
b) T the relation is true.
c) F period of oscillation of the simple pendulum is dependent on the amplitude
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SEMESTER ASSIGNMENT 1 (Semester 1) Question 1 State whether the following statements are TRUE or FALSE...
1. What is a linear restoring force? 2. What type of force must be acting to...
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?
Question 1 (3 points) A mass hangs from a spring and moves in simple harmonic motion....
Question 1 (3 points) A mass hangs from a spring and moves in simple harmonic motion. How does the period of oscillation change when the amplitude is increased by a factor of 4?
For my lab a 50g mass is on a spring. The spring is pulled down a...
For my lab a 50g mass is on a spring. The spring is pulled down
a different length for each trial and then released. What would the
amplitude of motion be for this experiment and how can I test that
the frequency is independent from the amplitude.
In cases where the restoring force is proportional to the amount of displacement from the oquilibrium position, the object undergoes simple harmonic motion (SHM). An object on a spring is the simplest example...
please answer all prelab questions, 1-4. This is the prelab manual, just in case you need...
please answer all prelab questions, 1-4.
This is the prelab manual, just in case you need background
information to answer the questions. The prelab questions are in
the 3rd photo.
this where we put in the answers, just to give you an
idea.
Lab Manual Lab 9: Simple Harmonic Oscillation Before the lab, read the theory in Sections 1-3 and answer questions on Pre-lab Submit your Pre-lab at the beginning of the lab. During the lab, read Section 4 and...
Question 9 [3+ (6 + 2) = 11 marks] (a) A sand pendulum consists of a...
Question 9 [3+ (6 + 2) = 11 marks] (a) A sand pendulum consists of a funnel shaped object filled with sand and suspended from a long string (not shown) as depicted in the diagram. As the pendulum swings back and forth in simple harmonic motion the sand gradually falls from the base of the funnel through a small hole in the bottom. Predict what will happen to the period of oscillation of the pendulum as mass is gradually lost....
A mass of 0.200kg is attached to a spring of length 0.500m and is placed on...
A mass of 0.200kg is attached to a spring of length 0.500m and is placed on a horizontal frictionless surface. The mass is then pulled so that the spring now stretches to a total length of 0.550m. The mass is then given an initial speed of 5.00 m/s and the mass undergoes simple harmonic motion with a period of 0.200s. Find the spring constant (k) of the spring. Find the amplitude oscillation of the mass. Find the speed of the...
After a thorough reading of this entire experimental write-up, you should answer the following questions in...
After a thorough reading of this entire experimental write-up, you should answer the following questions in the space provided and be prepared to turn them in at the start of lab. 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...
Homework: Simple Harmonic Motion Name: 1. A 4.5-kg block is hung from a spring causing the...
Homework: Simple Harmonic Motion Name: 1. A 4.5-kg block is hung from a spring causing the spring to elongate 12 cm. (a) What is the spring constant for this spring? (b) If the spring was stretched 18 cm and released, what will be the period of oscillation? 2. What mass on a spring with a spring constant of 160 N/m will oscillate with a period of 2.0 s? 3. A mass of 240 g oscillates on a spring on a...
1) A 12.3 kg particle is undergoing simple harmonic motion with an amplitude of 1.86 mm....
1) A 12.3 kg particle is undergoing simple harmonic motion with an amplitude of 1.86 mm. The maximum acceleration experienced by the particle is 7.93 km/s2. (a) Find the period of the motion. (b) What is the maximum speed of the particle? (c) Calculate the total mechanical energy of this simple harmonic oscillator. 2) The orbit of the Moon around the Earth as projected along a diameter can be viewed as simple harmonic motion. Calculate the effective force constant k...
Exercises 1. (introduction) Sketch or plot the displacement of the mass in a mass-spring system for at least two per...
Exercises 1. (introduction) Sketch or plot the displacement of the mass in a mass-spring system for at least two periods for the case when Wn-2rad/s, 괴,-1mm, and eto =-v/5mm/s. 2. (introduction) The approximation sin θ ะ θ is reasonable for θ < 10°. If a pendulum of length 0.5m, has an initial position of 0()0, what is the maximum value of the initial angular velocity that can be given to the pendulum without violating this smll angle approximation? 3. (harmonic...
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?
Question 1 (3 points) A mass hangs from a spring and moves in simple harmonic motion. How does the period of oscillation change when the amplitude is increased by a factor of 4?
For my lab a 50g mass is on a spring. The spring is pulled down
a different length for each trial and then released. What would the
amplitude of motion be for this experiment and how can I test that
the frequency is independent from the amplitude.
In cases where the restoring force is proportional to the amount of displacement from the oquilibrium position, the object undergoes simple harmonic motion (SHM). An object on a spring is the simplest example...
please answer all prelab questions, 1-4.
This is the prelab manual, just in case you need background
information to answer the questions. The prelab questions are in
the 3rd photo.
this where we put in the answers, just to give you an
idea.
Lab Manual Lab 9: Simple Harmonic Oscillation Before the lab, read the theory in Sections 1-3 and answer questions on Pre-lab Submit your Pre-lab at the beginning of the lab. During the lab, read Section 4 and...
Question 9 [3+ (6 + 2) = 11 marks] (a) A sand pendulum consists of a funnel shaped object filled with sand and suspended from a long string (not shown) as depicted in the diagram. As the pendulum swings back and forth in simple harmonic motion the sand gradually falls from the base of the funnel through a small hole in the bottom. Predict what will happen to the period of oscillation of the pendulum as mass is gradually lost....
After a thorough reading of this entire experimental write-up, you should answer the following questions in the space provided and be prepared to turn them in at the start of lab. 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...
Homework: Simple Harmonic Motion Name: 1. A 4.5-kg block is hung from a spring causing the spring to elongate 12 cm. (a) What is the spring constant for this spring? (b) If the spring was stretched 18 cm and released, what will be the period of oscillation? 2. What mass on a spring with a spring constant of 160 N/m will oscillate with a period of 2.0 s? 3. A mass of 240 g oscillates on a spring on a...
Exercises 1. (introduction) Sketch or plot the displacement of the mass in a mass-spring system for at least two periods for the case when Wn-2rad/s, 괴,-1mm, and eto =-v/5mm/s. 2. (introduction) The approximation sin θ ะ θ is reasonable for θ < 10°. If a pendulum of length 0.5m, has an initial position of 0()0, what is the maximum value of the initial angular velocity that can be given to the pendulum without violating this smll angle approximation? 3. (harmonic...
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