© 2017 European Physical Society. This paper presents a high accuracy method to measure gravitational acceleration in an undergraduate laboratory program. The experiment is based on water in a cylindrical vessel rotating about its vertical axis at a constant speed. The water surface forms a paraboloid whose focal length is related to rotational period and gravitational acceleration. This experimental setup avoids classical source errors in determining the local value of gravitational acceleration, so prevalent in the common simple pendulum and inclined plane experiments. The presented method combines multiple physics concepts such as kinematics, classical mechanics and geometric optics, offering the opportunity for lateral as well as projec...
Earth\u27s gravity pulls all objects toward its center, and near the Earth\u27s surface. Objects in ...
The torsion balance has a long history of measuring weak forces. Its inherent design results in a ve...
In the first of these the acceleration due to gravity is measured by timing by means of an electrica...
An experimental method that uses a cylindrical column of liquid that rests on the rotating turntable...
We describe a low-cost yet experimentally challenging method to measure the acceleration of gravity,...
We describe a laboratory experiment in which the local acceleration of gravity, g, was determined. T...
A simple pendulum is used to determine the acceleration due to gravity.https://nsuworks.nova.edu/phy...
A method for experimentally measuring g, the Earth\u27s gravitational acceleration, is presented. Th...
An introductory physics experiment has been developed to address the issues seen in conventional phy...
Discovering Uniformly Accelerated motion is intended as a three week uniform acceleration unit taugh...
The acceleration due to gravity is determined from the descent of a near frictionless glider on an i...
An introductory physics experiment has been developed to address the issues seen in conventional phy...
The acceleration due to gravity is determined from the fall of a metal sphere.https://nsuworks.nova....
We present two novel methods, tested by LISA Pathfinder, to measure the gravitational constant G for...
Earth\u27s gravity pulls all objects toward its center, and near the Earth\u27s surface. Objects in ...
The torsion balance has a long history of measuring weak forces. Its inherent design results in a ve...
In the first of these the acceleration due to gravity is measured by timing by means of an electrica...
An experimental method that uses a cylindrical column of liquid that rests on the rotating turntable...
We describe a low-cost yet experimentally challenging method to measure the acceleration of gravity,...
We describe a laboratory experiment in which the local acceleration of gravity, g, was determined. T...
A simple pendulum is used to determine the acceleration due to gravity.https://nsuworks.nova.edu/phy...
A method for experimentally measuring g, the Earth\u27s gravitational acceleration, is presented. Th...
An introductory physics experiment has been developed to address the issues seen in conventional phy...
Discovering Uniformly Accelerated motion is intended as a three week uniform acceleration unit taugh...
The acceleration due to gravity is determined from the descent of a near frictionless glider on an i...
An introductory physics experiment has been developed to address the issues seen in conventional phy...
The acceleration due to gravity is determined from the fall of a metal sphere.https://nsuworks.nova....
We present two novel methods, tested by LISA Pathfinder, to measure the gravitational constant G for...
Earth\u27s gravity pulls all objects toward its center, and near the Earth\u27s surface. Objects in ...
The torsion balance has a long history of measuring weak forces. Its inherent design results in a ve...
In the first of these the acceleration due to gravity is measured by timing by means of an electrica...