There is a motion of a system of masses that is as simple as the motion of a point mass on a straight line. It is the rotation of a rigid body about a fixed axis. For example, we live on a rotating earth, use rotating devices such as a potter\u27s wheel or a phonograph turntable, and test our luck with a spinning roulette wheel. All of these are objects whose motion is described by the time dependence of a single variable, the angle of rotation. We shall study the angular equivalent of uniformly accelerated motion for some rotating objects. This module also begins the study of rotational dynamics by introducing the dynamical quantities torque and angular momentum for a point mass moving in a plane
In this study, a wing system in three different coordinates, x, y and z, was established. The main p...
AbstractHumans are sensitive to the parameters of translational motion, namely, direction and speed....
In measurement of rigid body inertia by the falling body method, we obtain the angular acceleration ...
There is a motion of a system of masses that is as simple as the motion of a point mass on a straigh...
A diver, in making several turns in the air, grabs his knees to achieve a high rate of rotation, and...
An alternative approach to the stability of torque-free rotations and to top nutation that emphasize...
Concepts and mathematical instruments used in elementary mechanics are often perceived as abstract e...
Educação Superior::Ciências Exatas e da Terra::FísicaPresents the first part of a lecture of Profess...
In the diploma thesis I discuss the rotation of a rigid body about a fixed axis that is not a princi...
Our earlier discussion of the kinematics of a particle was developed principally from the point of v...
The velocity of a moving point in a general path is the vector quantity, which has both magnitude an...
Enough of this physics where things move along straight lines only! We know that most interesting re...
The creation of the new AP Physics 1 course has introduced quite a few changes into the curriculum w...
Part eleven of course materials for Classical Dynamics (Physics 520), taught by Gerhard Müller at th...
Thesis. 1978. M.S.--Massachusetts Institute of Technology. Dept. of Mechanical Engineering.MICROFICH...
In this study, a wing system in three different coordinates, x, y and z, was established. The main p...
AbstractHumans are sensitive to the parameters of translational motion, namely, direction and speed....
In measurement of rigid body inertia by the falling body method, we obtain the angular acceleration ...
There is a motion of a system of masses that is as simple as the motion of a point mass on a straigh...
A diver, in making several turns in the air, grabs his knees to achieve a high rate of rotation, and...
An alternative approach to the stability of torque-free rotations and to top nutation that emphasize...
Concepts and mathematical instruments used in elementary mechanics are often perceived as abstract e...
Educação Superior::Ciências Exatas e da Terra::FísicaPresents the first part of a lecture of Profess...
In the diploma thesis I discuss the rotation of a rigid body about a fixed axis that is not a princi...
Our earlier discussion of the kinematics of a particle was developed principally from the point of v...
The velocity of a moving point in a general path is the vector quantity, which has both magnitude an...
Enough of this physics where things move along straight lines only! We know that most interesting re...
The creation of the new AP Physics 1 course has introduced quite a few changes into the curriculum w...
Part eleven of course materials for Classical Dynamics (Physics 520), taught by Gerhard Müller at th...
Thesis. 1978. M.S.--Massachusetts Institute of Technology. Dept. of Mechanical Engineering.MICROFICH...
In this study, a wing system in three different coordinates, x, y and z, was established. The main p...
AbstractHumans are sensitive to the parameters of translational motion, namely, direction and speed....
In measurement of rigid body inertia by the falling body method, we obtain the angular acceleration ...