The term "kinetic" describes a force that is in motion or moving independently from other forces.
Balanced forces can exist with or without kinetic energy. Balanced forces occur when the forces acting on an object are equal in magnitude and opposite in direction, resulting in no change in the object's motion. Kinetic energy, on the other hand, is the energy an object possesses due to its motion. So, an object experiencing balanced forces may or may not have kinetic energy depending on its state of motion.
The particles would either be called atoms or molecules.The state of matter is a gas.
Intermolecular forces are stronger in liquids than in gases. A gas is the physical state characterized by the complete dominance of kinetic energy (disruptive forces) over potential energy (cohesive forces). Thus, gas particles move independently of one another. On the other hand, a liquid is the physical state characterized by potential energy (cohesive forces) and kinetic energy (disruptive forces) of about the same magnitude. So, the particles in the liquid have enough kinetic energy to move and slide past one another, but are still held together by any intermolecular forces. The particles in the liquid will break free of any intermolecular bonds once they obtain enough kinetic energy.
The kinetic forces would be highest at the bottom of the hill where the speed of the object is the greatest as it descends due to the conversion of potential energy into kinetic energy.
Kinetic energy is conserved in a system when there are no external forces acting on the system, meaning that the total amount of kinetic energy remains constant.
potential and kinetic
The gas phase is the most random, as particles are free to move independently and have high kinetic energy, leading to a lack of strong intermolecular forces and a high degree of disorder.
In a state of matter with low kinetic energy, such as a solid or a liquid, the particles (atoms or molecules) are not moving as fast as in a gas, so they are held together by strong attractive forces. These forces prevent the particles from breaking free and moving independently, giving the substance its characteristic shape and volume.
Balanced forces can exist with or without kinetic energy. Balanced forces occur when the forces acting on an object are equal in magnitude and opposite in direction, resulting in no change in the object's motion. Kinetic energy, on the other hand, is the energy an object possesses due to its motion. So, an object experiencing balanced forces may or may not have kinetic energy depending on its state of motion.
The particles would either be called atoms or molecules.The state of matter is a gas.
Intermolecular forces are stronger in liquids than in gases. A gas is the physical state characterized by the complete dominance of kinetic energy (disruptive forces) over potential energy (cohesive forces). Thus, gas particles move independently of one another. On the other hand, a liquid is the physical state characterized by potential energy (cohesive forces) and kinetic energy (disruptive forces) of about the same magnitude. So, the particles in the liquid have enough kinetic energy to move and slide past one another, but are still held together by any intermolecular forces. The particles in the liquid will break free of any intermolecular bonds once they obtain enough kinetic energy.
the principle that resultant of the external forces and kinetic reaction acting forces is zero
The Kinetic Molecular Theory does not have a specific formula. It is a set of assumptions that describe the behavior of gases based on the motion of their particles. These assumptions include that gases are composed of particles in constant random motion, have negligible volume, and do not exert intermolecular forces except when they collide.
The kinetic forces would be highest at the bottom of the hill where the speed of the object is the greatest as it descends due to the conversion of potential energy into kinetic energy.
The boiling point of a liquid is determined by the balance between intermolecular forces and kinetic energy. As temperature increases, the kinetic energy of the liquid molecules rises, allowing them to overcome the attractive intermolecular forces holding them together. When the kinetic energy is sufficient to break these forces, the liquid transitions into a gas, resulting in boiling. Therefore, a higher boiling point typically indicates stronger intermolecular forces, requiring more energy for the phase change.
Internal forces are stresses and changes inside the material or body. External forces act independently upon an object.
Kinetic energy is conserved in a system when there are no external forces acting on the system, meaning that the total amount of kinetic energy remains constant.