Muscular
The muscular system is directly responsible for producing mechanical motion in the body. Muscles contract and relax to generate movement of body parts.
Torque is negative in a mechanical system when the force applied causes the object to rotate in the opposite direction of the desired motion.
Mechanical motion is directly caused by a force applied to an object, resulting in a change in its position or orientation. This force can come from various sources such as pushing, pulling, friction, gravity, or an external agent like a motor or engine.
Yes, changed in entropy refer to changed in mechanical motion. Entropy is a measure of the number of specific ways in which a thermodynamic system may be arranged, commonly understood as a measure of disorder.
Constraints in a mechanical system restrict the motion of its components to specific paths or ranges. They can limit the degrees of freedom, dictate the direction or magnitude of motion, and influence the overall behavior. Understanding and appropriately applying constraints are crucial for designing, analyzing, and controlling the motion of mechanical systems.
A mechanical motion modifier is a device or mechanism that alters or adjusts the motion of a system or machine. It can be used to regulate speed, direction, or other parameters of motion to achieve a desired output. These modifiers are commonly found in mechanical systems such as gears, pulleys, cams, and linkages.
sort of trajectory, solutions of eqaution of motion of a mechanical system,
your question is not clear but fro what i could understand, i can tell you that frictional force always opposes motion of mechanical system ( so it would decrease the system's mechanical energy) therefore i can never increase it.
Mechanical energy is called mechanical energy because it refers to the energy associated with the motion and position of an object. It encompasses both kinetic energy (energy of motion) and potential energy (energy of position) in physical systems involving mechanical work.
No, friction always acts in the direction opposite to the motion of an object, which dissipates mechanical energy in the form of heat. Therefore, friction cannot increase the mechanical energy of a system.
The pulley equation is used in mechanical systems to calculate the relationship between the forces applied to a pulley system and the resulting motion or load. It helps determine the mechanical advantage and efficiency of the system.
Mechanical energy is the sum of potential energy and kinetic energy in a system. It represents the energy associated with the motion and position of an object. Potential energy is stored energy based on an object's position, while kinetic energy is the energy of motion. In a closed system, mechanical energy is conserved, meaning it remains constant if no external forces do work on the system.