In this video, we derive the third kinematic equation in one dimension step by step using fundamental definitions of motion. You’ll see how velocity, acceleration, and displacement are mathematically ...

Understand the kinematic equations and how they are derived from fundamental principles of motion. This video clearly explains displacement, velocity, acceleration, and time relationships, making it ...

Abstract: A three-degree-of-freedom 3-2(Prismatic-Revolute)-Revolute-Spherical (3-(PRPR)RS) parallel manipulator is proposed where its kinematics and dynamics characteristics are studied. First, the ...

First of all, the author reviewed the environmental torque considered in LEO. For LEO spacecrafts, the aerodynamic torque and gravity gradient torque were mainly considered. The gravity gradient ...

Kinetic Energy and Potential Energy: We all know that energy can neither be created nor destroyed; it changes its forms. Similarly, kinetic energy also transforms from one form to another. The motion ...

Kinematics Equation: The branch of physics that defines motion concerning space and time, ignoring the cause of that motion, is known as Kinematics. Kinematics equations are a set of formulas used in ...

Abstract: The article provides an original method for obtaining kinematic models of solar panel deployment mechanisms, which is based on the principle of formalised description of mechanisms ...

This study aims to address the difficulties in solving coupled generalized non-linear Burger equations using local fractional calculus as a framework. The methodology used in this work, particularly ...