Results 261 to 270 of about 39,370 (322)

Periodic motions of gyroscopic systems

Journal of Applied Mathematics and Mechanics, 1988
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Voronin, A. A., Sazonov, V. V.
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An exceptional case of motion of the kovalevskaia gyroscope

Journal of Applied Mathematics and Mechanics, 1983
zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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A Perturbation Solution of the Equations of Motion of a Gyroscope

Journal of Applied Mechanics, 1959
Abstract A perturbation method of solution is outlined for the nonlinear equations of motion of free and forced vibration of a two-gimbal gyro. Results are given for the term displayed in the solution which indicates that the outer gimbal of the gyro will not oscillate about its initial center position, but will acquire a steady rate of ...
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Relativistic gyroscopic motion and aberration

Physical Review D, 1976
A new generally covariant method to calculate the motion of the axis of an orbiting gyroscope, with respect to the direction of fixed stars, is presented. The method includes general-relativistic aberration effects and gives frame-independent results which can be compared directly with the proposed NASA gyroscope experiment.
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Influence of angular acceleration on the dynamic response of the proof mass in the MEMS vibratory gyroscope model

Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2022
Vu Van The
semanticscholar   +1 more source

The Rosario dataset v2: Multi-modal dataset for agricultural robotics

The international journal of robotics research
We present a multi-modal dataset collected in a soybean crop field, comprising over 2 hours of recorded data from sensors such as stereo infrared camera, color camera, accelerometer, gyroscope, magnetometer, GNSS (Single-Point Positioning, Real-Time ...
Nicolás Soncini, Javier Cremona, Erica Vidal, Maximiliano Garc'ia, Gastón I. Castro, Taihú Pire   +5 more
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Gyroscopic Motion: Show Me the Forces!

The Physics Teacher, 2014
Gyroscopes are frequently used in physics lecture demonstrations and in laboratory activities to teach students about rotational dynamics, namely, angular momentum and torque. Use of these powerful concepts makes it difficult for students to fully comprehend the mechanism that keeps the gyroscope from falling under the force of gravity. The analysis of
Harvey Kaplan, Andrew Hirsch
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Electromyography and Inertial Measurement Unit Analysis for Assessing Ergonomic Risk and Biomechanical Efficiency

Proceedings of the Human Factors and Ergonomics Society Annual Meeting
This study develops a framework for assessing ergonomic risk by integrating electromyography (EMG), inertial measurement unit (IMU) data, and subjective task evaluations.
Hari Iyer, Heejin Jeong
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Gesture Recognition from Sensors Using Dual-path Encoding and Attention

Proceedings of the 2nd International Symposium on Integrated Circuit Design and Integrated Systems
With the widespread adoption of smart wearable devices, embedded Micro-Electro-Mechanical Systems (MEMS) have become a key research area in gesture recognition.
Zhenyu He, Zijun Chen, Yonggang Fang
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Towards an understanding of gyroscopic motion

Physics Education, 1968
Common treatments of gyroscopic motion in textbooks at the student level tend to be difficult to follow physically although trivial mathematically, and sometimes simplify matters to the point of actually giving an incorrect description of the motion of a gyroscope when under the influence of an external torque.
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