The pendulum with the greatest frequency is the pendulum with the
a.) shortest period
b.) shortest length
c.) both the previous
d.) none of the previous
The pendulum with the greatest frequency is the pendulum with the a.) shortest period b.) shortest...
A pendulum of length L swings with an amplitude θ and a frequency f as depicted above. If the amplitude is increased, then.. (Note that for both cases the amplitude θ is small) A. the period will not change. B. the period will decrease. C. the frequency will decrease D. the frequency will increase. E. the period will increase.
A pendulum of length L swings with an amplitude θ and a frequency f as depicted above. If the amplitude is increased, then.. (Note that for both cases the amplitude θ is small) A. the period will decrease. B. the frequency will decrease C. the frequency will increase. D. the period will increase. E. the period will not change
A pendulum of length L swings with an amplitude and a frequency fas depicted above If the amplitude is increased, then (Note that for both cases the amplitude e is small) A. the frequency will decrease B. the period will increase. C. the period will not change. D. the period will decrease. E. the frequency will increase. Reset Selection ** a ENG
Show your work. 1) If the period of a pendulum is 12s, What is its frequency? (0.083Hz) What is its length? (35.8m)
QUESTION 1 As pendulum length increases, the period of harmonic motion O A. increases 。B. decreases. OC.remains the same. QUESTION 2 As pendulum mass increases, the period of harmonic motion A. increases. B. decreases ° C. remains the same QUESTION3 As gravity on the pendulum increases (as on Jupiter), the period of harmonic motion A. increases B. decreases. C. remains the same. QUESTION4 A pendulum attains maximum speed O at the equilibrium position O at maximum amplitude O somewhere in...
▼ Part A What is the period of a simple pendulum 70 cm long on the Earth? Express your answer using two significant figures. If there is no answer, enter none. SubmitP Previous Answers Request Answer X Incorrect: Try Again; 2 attempts remaining Part B at is the period of a simple pendulum 80 <cm long when it is in a freely falling elevator? Express your answer using two significant tigures. It there is no answer, enter none.
To calculate the period of a pendulum from the equation used in this experiment, which of the following provides sufficient information? Question 3 options: a) the acceleration due to gravity (g) b) the length (L) of the pendulum c) the mass (m) and length (L) of the pendulum t d) he mass (m) and acceleration due to gravity (g) e)the acceleration due to gravity (g) and length (L) of the pendulum
4) a) Calculate the period of a simple pendulum if the length of the string is g on the moon. gon Moon is 16of g on Earth. gon Earth = 9.8 m/s: 1.5 meter? b) Calculate the period of the simple pendulum if you take to Mars. g on Mars 3.7 m/s What is the ratio of the period of the above simple pendulum to the period of a simple pendulum which is 4 times longer? b) d) What happens...
A mass on a string of unknown length oscillates as a pendulum with a period of 3.5s. Parts a to d are independent questions, each referring to the initial situation. What is the period if: Part A: the mass is doubled? (s) Part B: the string length is doubled? (s) Part C: the string length is halved? (s) Part D: the amplitude is doubled? (s)
1. The longer the pendulum the __________ the period of oscillation. Group of answer choices longer shorter 2. The shorter the period of oscillation, the __________ the frequency of oscillation. Group of answer choices lower higher 3. Which of the following does not affect the period of oscillation for a pendulum? Group of answer choices mass of the pendulum length of the pendulum acceleration due to gravity 4. The frequency of oscillation for a mass attached to a spring ____________...