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Force and Momentum01:17

Force and Momentum

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Force and momentum are intimately related. Force acting over time can change momentum, and Newton's second law of motion can be stated in its most broadly applicable form in terms of momentum. Momentum can be applied to systems where the mass is changing, such as rockets, as well as to systems of constant mass. Also, momentum continues to be a key concept in the study of atomic and subatomic particles in quantum mechanics. One can consider systems with varying mass in some detail; however,...
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Principle of Moments: Problem Solving01:30

Principle of Moments: Problem Solving

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The principle of moments is a fundamental concept in physics and engineering. It refers to the balancing of forces and moments around a point or axis, also known as the pivot. This principle is used in many real-life scenarios, including construction, sports, and daily activities like opening doors and pushing objects.
One such scenario involves a pole placed in a three-dimensional system with a cable attached. When a tension is applied to the cable, the moment about the z-axis passing through...
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Rigid Body Equilibrium Problems - II01:21

Rigid Body Equilibrium Problems - II

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A rigid body is in static equilibrium when the net force and the net torque acting on the system are equal to zero.
Consider two children sitting on a seesaw, which has negligible mass. The first child has a mass (m1) of 26 kg and sits at point A, which is 1.6 meters (r1) from the pivot point B; the second child has a mass (m2) of 32 kg and sits at point C. How far from the pivot point B should the second child sit (r2) to balance the seesaw?
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Measuring Acceleration Due to Gravity01:12

Measuring Acceleration Due to Gravity

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Consider a coffee mug hanging on a hook in a pantry. If the mug gets knocked, it oscillates back and forth like a pendulum until the oscillations die out.
A simple pendulum can be described as a point mass and a string. Meanwhile, a physical pendulum is any object whose oscillations are similar to a simple pendulum, but cannot be modeled as a point mass on a string because its mass is distributed over a larger area. The behavior of a physical pendulum can be modeled using the principles of...
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Impact: Problem Solving01:26

Impact: Problem Solving

221
In an experiment conducted during a Mars mission, a rover propels a projectile with an initial velocity, and the projectile rebounds after colliding with the Martian surface. To ascertain the maximum height attained by the projectile after this collision, the known restitution coefficient and acceleration due to gravity are employed.
By designating the launch point as the origin and utilizing kinematic equations, the vertical component of the projectile's velocity at the point of impact is...
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Normal and Tangetial Components: Problem Solving01:24

Normal and Tangetial Components: Problem Solving

169
Consider a man with a mass of 70 kg seated in a chair connected to a pin support through a member BC. If the man maintains an upright position, the task is to determine the horizontal and vertical reactions of the chair on the man when the member makes a 45° angle with the horizontal. At this moment, the man has a speed of 5 m/s, increasing at a rate of 1 m/s².
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相关实验视频

Updated: May 29, 2025

Measurement of Spatial Stability in Precision Grip
09:36

Measurement of Spatial Stability in Precision Grip

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测量坐着投篮的极力:一个案例研究.

Connor J M Holdback1, Richard M Kelso1,2, David S Haydon3,4

  • 1School of Electrical and Mechanical Engineering, University of Adelaide, Adelaide, Australia.

Sports biomechanics
|February 6, 2025
PubMed
概括

现在可以使用更简单的方法来测量坐着的投篮中抛杆力. 这项研究引入了新的技术,并揭示了共振极效应,有助于对残疾运动员的性能优化.

关键词:
在残奥运动会上,残奥运动员田径运动 田径运动身体残疾就是残疾.坐在座位上的投.运动运动运动运动运动.

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Biomechanical Analysis Methods to Assess Professional Badminton Players' Lunge Performance
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相关实验视频

Last Updated: May 29, 2025

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科学领域:

  • 生物力学 生物力学
  • 这是一场残疾人运动.
  • 运动工程 运动工程

背景情况:

  • 投杆对于在残疾人体育运动中坐着的投技术至关重要.
  • 测量极力对于理解和提高性能至关重要.
  • 之前的研究缺乏关于坐着投杆力量的数据.

研究的目的:

  • 介绍第一个测量投杆力在坐着投.
  • 为了比较直接负载传感和基于偏移的测量方法.
  • 评估使用不那么专业的设备测量极力是否可行.

主要方法:

  • 极力测量的直接负载传感方法.
  • 基于偏斜的极力测量方法.
  • 测量准确度和设备要求的比较.

主要成果:

  • 基于偏移的方法是直接负载传感 (RMSE <10%) 的可行的替代方法.
  • 这种更简单的方法可以在没有专门设备的情况下进行极力测量.
  • 在投过程中观察到意想不到的共振极效应 (5-6 Hz).

结论:

  • 在坐着投中测量极力是可以通过更简单的,基于偏移的方法实现的.
  • 这些发现为未来对坐着投生物力学研究提供了基础.
  • 观察到的共振效应可能会影响运动员的力量应用,需要进一步调查.