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Angle of Twist: Problem Solving01:13

Angle of Twist: Problem Solving

267
An electric motor applies a torque of 700 N·m to an aluminum shaft, triggering a stable rotation. Two pulleys, B and C, are subjected to torques of 300 N·m and 400 N·m, respectively. The modulus of rigidity is provided as 25 GPa. With the knowledge of the length and diameter of each segment, the twist angle between the two pulleys can be computed. First, a section cut is made between pulleys B and C, and the cut cross-section is analyzed using a free-body diagram. Given that the...
267
Angle of Twist - Elastic Range01:13

Angle of Twist - Elastic Range

281
Consider a cylindrical shaft with a length denoted by L and a consistent cross-sectional radius referred to as r. This shaft undergoes a torque at the free end. The highest shearing strain within the shaft is directly proportional to the twist angle and the radial distance from the shaft axis. When the shaft behaves elastically, this shearing strain can be articulated using variables such as the applied torque, radial distance, the polar moment of inertia, and the modulus of rigidity. By...
281
Torque01:10

Torque

15.0K
Torque is an important quantity for describing the dynamics of a rotating rigid body. We see the application of torque in many ways in the world, such as when pressing the accelerator in a car, which causes the engine to apply additional torque on the drivetrain. Here, we define torque and provide a framework to create an equation to calculate torque for a rigid body with fixed-axis rotation.
Torque can be considered as the rotational counterpart to force. Since forces change the translational...
15.0K
Equation of Rotational Dynamics01:08

Equation of Rotational Dynamics

8.2K
Angular variables are introduced in rotational dynamics. Comparing the definitions of angular variables with the definitions of linear kinematic variables, it is seen that there is a mapping of the linear variables to the rotational ones. Linear displacement, velocity, and acceleration have their equivalents in rotational motion, which are angular displacement, angular velocity, and angular acceleration. Similar to the rotational variables, a mapping exists from Newton's second law of motion...
8.2K
Net Torque Calculations01:19

Net Torque Calculations

9.1K
When a mechanic tries to remove a hex nut with a wrench, it is easier if the force is applied at the farthest end of the wrench handle. The lever arm is the distance from the pivot point (the hex nut in this case) to the person’s hand. If this distance is large, the torque is higher. Only the component of the force perpendicular to the lever arm contributes to the torque. Therefore, pushing the wrench perpendicular to the lever arm is more advantageous. If multiple people apply force to...
9.1K
Transformation of Plane Stress01:18

Transformation of Plane Stress

215
Studying stress transformation is essential in understanding how stress components within a material, like a cube under plane stress, change with rotation. This change is analyzed by considering a prismatic element within the cube. As the element rotates, the stress components acting on it—both normal and shearing stresses—change in magnitude and orientation. This change is quantified using trigonometric functions of the rotation angle, relating the forces acting on the rotated element's...
215

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相关实验视频

Updated: Jun 15, 2025

Author Spotlight: 3D Movement Assessment of Maxillary Posterior Teeth in Clear Aligner Treatment
07:32

Author Spotlight: 3D Movement Assessment of Maxillary Posterior Teeth in Clear Aligner Treatment

Published on: February 23, 2024

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对牙旋转,扭矩和尖端的欧勒角规范.

Benjamin Steinvorth1, Stefano Troiani2, Tony Weir3

  • 1YOUniquehorns GmbH, Ulm, Germany.

Orthodontics & craniofacial research
|August 27, 2024
PubMed
概括

这项研究引入了一种用于测量数字牙造型中牙方向的新系统,为牙旋转,扭矩和尖端提供了更新的角值. 这些发现为牙科研究和正牙评估提供了新的基准.

关键词:
三维叠加的3D叠加.人工智能的人工智能是人工智能.大数据就是大数据.封闭性封闭是什么?牙的位置 牙的位置

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Studying Orthodontic Tooth Movement in Mice
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科学领域:

  • 牙科 牙科是指牙科的专业.
  • 矯正牙科 矯正牙科是一種矯正牙科.
  • 生物医学工程 生物医学工程

背景情况:

  • 准确的牙方向对于牙科诊断和治疗计划至关重要.
  • 现有的测量牙位置的方法可能缺乏精度或全面的数据.
  • 数字牙科件为高级分析提供了一个有前途的平台.

研究的目的:

  • 开发和描述一个新的测量系统,用于牙定向在数字下巴件.
  • 为牙旋转,扭矩和牙和下牙的尖端建立新的规范角值.
  • 为重新评估理想的封闭和对齐参数提供基础.

主要方法:

  • 使用了具有大量数据集 (>17,500名患者) 的回顾性横截面研究设计.
  • 采用外在欧勒角来定义牙的方向在三个平面:旋转,扭矩和倾斜.
  • 开发并应用了一种自动化软件系统 (Smyl:Ai) 来分析牙造型的立体石刻 (.STL) 文件.

主要成果:

  • 分析了来自1914个具有最佳遮蔽的个体的数字扫描.
  • 确定了牙和下牙的旋转,扭矩和尖端的新平均值和标准偏差角值.
  • 验证了自动测量系统的准确性和效率.

结论:

  • 新的角值有助于重新评估目前公认的理想牙位置参数.
  • 这些发现为人类学家,牙科研究人员和正牙医提供了重要的基线数据.
  • 开发的方法允许对大型数据集进行高效的分析,以便在未来对封闭和对齐进行研究.