Pendulum and gravity lab5/4/2023 2.2, 6.2)įigure 16.14 A simple pendulum has a small-diameter bob and a string that has a very small mass but is strong enough not to stretch appreciably. 3.B.3.4 The student is able to construct a qualitative and/or a quantitative explanation of oscillatory behavior given evidence of a restoring force.When sitting on a swing, the swing does not move until you are pushed or you pump your legs, creating the force that sets you in motion. 116 simple pendulum - lab report lab report University College of Staten Island CUNY Course Physics I (PHY 116) Academic year2018/2019 Helpful 80 Comments Please sign inor registerto post comments. 3.B.3.3 The student can analyze data to identify qualitative or quantitative relationships between given values and variables (i.e., force, displacement, acceleration, velocity, period of motion, frequency, spring constant, string length, mass) associated with objects in oscillatory motion to use that data to determine the value of an unknown. In the case of a pendulum, gravity is the force pulling the mass down, while inertia is the property keeping the mass in motion and pulling it back up.3.B.3.2 The student is able to design a plan and collect data in order to ascertain the characteristics of the motion of a system undergoing oscillatory motion caused by a restoring force.This content will help you understand how the pendulum works, its theory, and its experimental process, along with well-labelled diagrams. 3.B.3.1 The student is able to predict which properties determine the motion of a simple harmonic oscillator and what the dependence of the motion is on those properties. Statics and Dynamics Lab ME244 Analysis and design of the moment of inertia (MOI) measuring instrument with high accuracy Article Jul 2004 H.-Y. Pendulum clocks and instruments like seismometers, accelerometers, and gravimeters all rely on this motion of a pendulum. A pendulum exhibits simple harmonic motion (SHM), which allowed us to measure the gravitational constant by measuring the period of the pendulum.where L is the length of the pendulum, g the acceleration due to gravity. The information presented in this section supports the following AP® learning objectives and science practices: has been accepted for inclusion in Physics Lab Experiments with Simulated Data. ![]() ![]() ![]() Determine the period of oscillation of a hanging pendulum.By the end of this section, you will be able do the following:
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