Explain the working principle of Kater’s Pendulum and it functions in different systems.
Q: what if instead of timing one oscillation you let the pendulum swing for a total of 10 oscillations…
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Q: During the ‘Simple Pendulum’ practical, the length of the string was 0.3 m and the mass 0.3 kg. It…
A: Given: Length of string , L=0.3 m Mass of simple pendulum, m=0.3 kg In trial 1; time taken for first…
Q: simple
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Q: A pendulum is swinging back and forth. The angele 0 that the pendulum's string makes with e vertical…
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Q: A young girl and her mother are swinging on a swing set. Who, if either, has the longer period of…
A: The period of the swing is, T=2πLg where, L = effective length.
Q: Chapter 8. Potential Energy and Conservation of Energy For a pendulum of mass m=100 g and length…
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Q: Based on the experiment on Simple Pendulum, mention any two factors on which the period of a simple…
A: please see the next step for solution
Q: In a simple pendulum experiment, what kind of graph do you get when you graph the length of the…
A: A simple pendulum is made up of a mass m suspended from a string with a length L and a pivot point…
Q: In an oscillatory motion of a simple pendulum, the ratio of the maximum angular acceleration, 0"max,…
A: Given: The ratio of the angular acceleration and the maximum angular velocity is: f=θ''maxθ'maxf=π…
Q: Use the following data to determine the acceleration due to gravity L(m) 0.27 0.21 0.17 0.35 T(10…
A: The time period of the pendulum is given by T=2πlg HEnce, T2=4π2lgorT2=4π2gl This is of the…
Q: Statement: The amplitude of an oscillating pendulum decreases gradually with time. Reason: The…
A: Option c
Q: Question: A simple pendulum can be modeled as a massless string with a mass at the end that will…
A: The period for a simple pendulum does not depend on the mass of the string.
Q: A 1.17 kg mass attached to an ideal spring oscillates horizontally with a period of 0.94 s and…
A: Given data The mass of the object is given as m = 1.17 kg. The time period is given as t = 0.94 s.…
Q: to its end, it stretches 3.0 cm before reaching its new
A: Stretched length, x = 3 cm = 0.03 mAcceleration due to gravity, g = 9.8 m/s2
Q: If a pendulum-driven clock gains 2.35 s/day, what fractional change in pendulum length must be made…
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Q: A science museum has asked you to design a simple pendulum that will make 27.0 complete swings in…
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Q: gy peno
A: Maximum kinetic energy of simple pendulum is KEmax = 1/2 m A2 w2 Angular frequency w= 2π /T m =…
Q: Five simple pendulums are shown in the drawings. The length of the pendulums are drawn to scale, and…
A: Given:Five pendulumsDifferent Lengths Different mass (m or 2m)To Find:Which pendulum has the largest…
Q: A 1.43 kg mass attached to an ideal spring oscillates horizontally with a period of 0.77 s and…
A: Given data: Mass (m) = 1.43 kg Period (T) = 0.77 s Amplitude (A) = 2.34 m Required: The spring…
Q: We has an experiment about pendulum. after that, our gravitational acceleration result is 10.5…
A: Calculated value of g from experiment= 10.5 m/s2
Q: What is the location of a 0.340 kg mass attached to a 371 N/m spring that starts at its maximum…
A: Given mass of the object = m = 0.340 kg spring constant = k = 371 N/m object starts from rest at its…
Q: The amplitude of a lightly damped oscillator decreases by 4.7% during each cycle. What percentage of…
A: Mechanical energy of an oscillator is given as E=12×k×A2 where A denotes the amplitude Since…
Q: Simple Harmonic Motion For which of these Simple Harmonic Motion systems does the period of the…
A: Answer:- The simple pendulum. The simple pendulum is The simple harmonic motion system does the…
Q: A simple pendulum with a period ?=4.00 s is attached to the ceiling of an elevator which is…
A: Given information: The time period of the simple pendulum, T=4.00 s
Q: During a simple pendulum laboratory whose length was varying its value in centimeters and with an…
A: 1) The time period of a simple pendulum of length L is given by : T=2πLg It can be inferred from…
Q: Consider a situation in which a pendulum made from a wooden sphere. The mass of the pendulum is 100…
A: Given : Mass of the pendulum, m =100 g=100×10-3 kg Length of the pendulum, l=1m Question :…
Q: a) Compute the angular frequency and the spring constant b) write the equation of motion x, v,…
A: (a) Time Period is the time corresponding to one full cycle. From the graph, the time period is,
Q: a. What is the translational velocity of the bottom tip of the pendulum at the moment that…
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Q: A mass-spring system oscillates with an am- plitude of 2.5 cm. The spring constant is 227 N/m and…
A: Given : Amplitude (A) = 2.5 cm = 0.025 m Spring constant (k) = 227 N/m Mass (m) = 0.392 kg
Q: uppose astronauts on the first trip to Mars bring along a pendulum whose period on Earth is 1.50 s.…
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Q: There is a pendulum with a length of 36.8 meters. Swings with an amplitude of 0.094 meters. What…
A: The maximum acceleration of the pendulum is calculated by using the give expression below. Here, A…
Q: TEACHER PRACTICE ANOTHER A "seconds pendulum" is one that moves through its equilibrium position…
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Q: The pendulum loses 3.1% of energy with each oscillation. a) After how many oscillations does its…
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Q: Why isn't a simple pendulum an accurate method for determining the value of ground acceleration?
A: Answer: As per the given statement,
Q: The time period of a simple pendulum is 2 s. What is its frequency ? What name is given to such a…
A: Given Time period T=2s
Q: If the mass of the simple pendulum is increased, what will happen to the period? O The period will…
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Q: TIME (SECONDS) ANGULAR POSITION (RADIANS) 0.2 0.4 9'0 0.8 1.2 1.4 1.6 1.8 2.2 2.4 2.6 2.8 3.2 3.4…
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Q: If you took a pendulum to the moon where g = 1.6 m/s/s, what change would you observe in its period?
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Q: The mass on the end of a pendulum is 0.04 kg and hangs from a string of length 1.2 m. The pendulum…
A: Length , l = 1.2 m mass , m = 0.04 kg To find = double period of oscillation
Q: 4.0 kg-block attached to a 20 N/m-spring constant spring moves on a frictionless horizontal surface,…
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Explain the working principle of Kater’s Pendulum and it functions in different systems.
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- how to do?How do you calculate the period of a pendulum? I was given no equations and all I have are the graphs of the different pendulums.5 kilogram object is suspended from a string. The string is 4 meters long. What is the period of the object ting as a pendulum? Express your answer a number of seconds, omitting the unit.
- A pendulum oscillates is started with an amplitude of 00 = 5.0°. Its e(t) graph is shown at the top of the figure below. If the same pendulum is started at an amplitude of 0o = 10.0°, which curve best describes the motion of the pendulum? 15 50505 100 10 -5 50505 10 15 10 -5 ? ܟ ܘ ܟ ܘ ܩ 5 -5 -10 50505100 -5 MVY original oscillation XXXXXX 02 (b) @o w 4 6 time (s) @ (f) 8 (f) 10*) A physical pendulum has the form of a washer of mass M, outer radius Ro and inner radius R:. It is attached to a pivot at its edge and allowed to oscillate (small 0 limit). Find it's period of oscillation. (R+ R + R, (T= 21| g R.Pendulum A has twice the mass and double the length of Pendulum B (the small angle approximation applies to both pendula). Which of the following can you infer from this information? Pendulum A's motion has an amplitude square root two times larger than the amplitude of Pendulum B's motion Pendulum A's motion has an amplitude half as large as the amplitude of Pendulum B's motion Pendulum A has the same amplitude as Pendulum B Pendulum A has the same period as Pendulum B Pendulum A has a period square root two times larger than the period of Pendulum B O Pendulum A has a period square root two times smaller than the period of Pendulum B
- Does the period of oscillation depend on the hanging mass? Justify your answer.Does the period of oscillation vary with the amplitude of oscillation, if you keep the hanging mass constant? Justify your answer.Which of the following systems is in static equilibrium? A stick balanced on one end on top of the table. A tossed coin at the top of its trajectory. A simple pendulum with very small angles of oscillation. A horizontal disk in uniform circular motion.A 1.31 m long thin uniform rod is pivoted at one point so that it oscillates like a physical pendulum. Compare the angular frequency of this physical pendulum with a simple pendulum of the same length, both oscillating near the earth's surface. Round off your final answer to two decimal places. Hint: physical (0 simple Add your answer
- The amplitude of a lightly damped oscillator decreases by 1.2% during each cycle. What percentage of the mechanical energy of the oscillator is lost in each cycle? Number Enter your answer in accordance to the question statement Units Choose the answer from the menu in accordance to the question statement g (gravity)kg/satomskm/h^2rev/minmegatonsft·lbhpdollarshits/satmL/minpercentcm^-3 or /cm^3s/hsmu/ylines/mmcentsuphotons/sphotons/s·m^2ktonm^-3 or 1/m^3kg/minN-s/mN/storr or mm Hgmg/sμmWe have two pendulums that are released forming an angle θ=1° and a large angle θ=70° respectively, based on the above, it can be stated that Their periods are different. Their periods are equal. The period of the pendulum of smaller angular amplitude is larger. The period of one of them will be 65 times larger than the other.