The QUESTIONS 1,2, and the PREDICTION
Complete the calculations with the radius of the Earth (6.37x10^6)
The QUESTIONS 1,2, and the PREDICTION Complete the calculations with the radius of the Earth (6.37x10^6)...
10. QUESTIONS: (1) Why is the mass of the bob not used in this experiment? Does its shape make any difference? Explain (2) Draw a detailed force diagram for the pendulum bob. Why does the angle have to be kept small? Is it a matter of air resistance or is there any other reason? 6. GENERAL INSTRUCTIONS: Set up a system of rods and clamps so that the pendulums string is tied to a clamp ceiling and the bob is...
#2. [Swinging Disk] A uniform circular disk of mass M and radius R is set swinging side-to-side about a frictionless pivot P at its edge (a) What is the disk's moment of inertia about the pivot? (b) Write an expression for the net torque acting on the disk about the pivot when the disk is displaced to the right by angle θ CM (c) Write Newton's 2nd Law for Rotation for the disk when it is displaced as shown. Be...
PHYS 111 Laboratory - Pre-lab #14 (THE PENDULUM) Student Name: Lab Day and Time: Due at the beginning of lab. All answers must be legibly handwritten for credit. Show all work. References: lab manual, textbook Ch. 14.1 - 14.5. 1) (lab manual and Section 14.1) What is Simple Harmonic Motion (SHM)? 2) (Ch. 14.1, Equation 14.1) a. Write an equation for the oscillation period in terms of frequency. Define all SI units. b. If an oscillator completes 10 cycles in...
i would like help to write a program to run the following application in visual studio C++, CLR empty project Borough of Manhatan Community College The City University of New York SCIENCE DEPARTMENT Laboratory Experiment ACCELERATION DUE TO GRAVITY USING A SIMPLE PENDULUM To calculate the value of the acceleration due to gravity by measuring the period of a pendulum with four different lengths. Apparatus Drilled steel ball, string, clamp, support to hold pendulum apparatus, meter stick, and timer Theory:...
ASSIGNMENT QUESTIONS AND PRORLEMS FOR TOPIC 3 ASSIGNMENT QUESTIONS AND PROBLEMS FOR TOPIC 3 3.1A student was supplied with a stop watch, two metre rules and a simple pendulum suspended from a ceiling and was asked to measure the height of the ceiling indirectly, He set the pendulum swinging through a small angle and measured the period of oscillation for different lengths of the pendulum. Since he was unabie to measure the length of the pendulum directly, he measured the...
(1 point) Suppose a pendulum with length L (meters) has angle 0 (radians) from the vertical. It can be shown that 0 as a function of time satisfies the differential equation: d20 + -sin 0 = 0 dt2 L where g = 9.8 m/sec/sec is the acceleration due to gravity. For small values of 0 we can use the approximation sin(0) ~ 0, and with that substitution, the differential equation becomes linear A. Determine the equation of motion of a...
6. (10 points Extra Credit) Electrodynamics is not the only subject that utilizes Gauss' Law. We can also use it to study Newtonian gravity. The acceleration due to gravity (9can be written as, where G is Newton's gravitational constant and ρ is the m ass density. This leads us to the usual formulation of Newton's universal law of gravity,或刃--GM(f/r, as expected (if we assume V xğ-0). This "irrotational" condition allows us write (in analogy to the electric field), --Vo and...
yBLEMS FOR TOPIC 3 ASSIGNMENT QUESTIONS AND PROBLEMS FOR TOPIC 3.1 A student was supplied with a stop watch, two metre rules and a simole pendulum suspended from a ceiling and was asked to measure the heihple the ceiling indirectly. He set the pendulum swinging through a small angle and measured the period of oscillation for different lengths of the Since he was unable to measure the length of the pendulum direer measured the height of the centre of the...
(radians) from the vertical. It can be shown that as a function of time satisfies the (1 point) Suppose a pendulum with length L (meters) has angle differential equation: d20 + & sin 0 = 0 dt 2 L where g = 9.8 m/sec/sec is the acceleration due to gravity. For small values of we can use the approximation sin() ~ 0, and with that substitution, the differential equation becomes linear. A. Determine the equation of motion of a pendulum...
Previous Problem List Next 11 point) Suppose a pendulum with length Limeters) has angle iradians) from the vertical. It can be shown that as a function of time satisfies the differential equation: do sin = 0 de? Z . and with that substitution, the differential where g = 9.8 m/sec/sec is the acceleration due to gravity. For small values of we can use the approximation sin(0) - equation becomes Inear A. Determine the equation of motion of a pendulum with...