no relation iz between molecular weight and movement which iz a function of temperature only.
Both and one more. It is [more commonly] said that an object's temperature is a measurement of the amount of heat that it contains. Heat is in its turn a reflection of the degree of Kinetic Energy the the object holds and, finally, kinetic energy directly relates to the speed of atomic and molecular motions.
Speed does not increase the weight of a moving body. Weight is determined by the mass of the object and the force of gravity acting on it, and it remains constant regardless of speed. Speed only affects the kinetic energy of the body, which is proportional to the square of the speed.
Yes, the speed of sound in air does increase with an increase in temperature. This is because higher temperatures lead to increased molecular motion, which in turn allows sound waves to travel faster through the medium.
Factors that can speed up diffusion include increasing the concentration gradient (larger difference in concentrations), higher temperature (which increases molecular movement), shorter distance for diffusion to occur, smaller molecular size, and the presence of a permeable membrane.
The relationship between temperature and molecule movement is a direct variation. Whenever the molecule movement increases so does the temperature; when the molecule movement decreases so does the temperature. I hope that helps.
Molecular speed depends on temperature, molecular mass/weight, and the medium in which the molecules are moving. An increase in temperature generally increases molecular speed, while higher molecular mass tends to decrease speed. Additionally, molecules tend to move faster in lighter or less dense media.
power = speed x strength So to increase your power you must: 1) increase the speed at which you can perform the movement 2) or increase the amount of weight you can perform the movement with AND the speed at which you can perform the movement Generally speaking one will see improvements with any improvment in speed OR strength. Once you reach professional level competition with highly trained atheles it becomes a little more complex than simply increasing one of these variables.
power = speed x strength So to increase your power you must: 1) increase the speed at which you can perform the movement 2) or increase the amount of weight you can perform the movement with AND the speed at which you can perform the movement Generally speaking one will see improvements with any improvment in speed OR strength. Once you reach professional level competition with highly trained atheles it becomes a little more complex than simply increasing one of these variables.
Temperature can control the speed of molecular movement. Higher temperatures lead to increased molecular motion, while lower temperatures slow down molecular movement.
Both and one more. It is [more commonly] said that an object's temperature is a measurement of the amount of heat that it contains. Heat is in its turn a reflection of the degree of Kinetic Energy the the object holds and, finally, kinetic energy directly relates to the speed of atomic and molecular motions.
Speed does not increase the weight of a moving body. Weight is determined by the mass of the object and the force of gravity acting on it, and it remains constant regardless of speed. Speed only affects the kinetic energy of the body, which is proportional to the square of the speed.
Increasing the magnitude of velocity or changing the direction of velocity towards the movement direction of the object can increase speed.
Yes, the speed of sound in air does increase with an increase in temperature. This is because higher temperatures lead to increased molecular motion, which in turn allows sound waves to travel faster through the medium.
Temperature directly affects the speed of molecular movement in matter. As temperature increases, the molecules gain more energy and move faster. Conversely, as temperature decreases, the molecules slow down. This relationship is described by the kinetic theory of matter.
An increase in temperature causes molecules to move faster and with greater energy. This results in an increase in the rate of collisions between molecules, leading to higher kinetic energy and an overall increase in the speed of molecular movement.
At high temperatures, the molecular movement and collisions increase, leading to more opportunities for denitration reactions to occur. This increased kinetic energy can break the nitrate group bonds more easily, resulting in a higher rate of denitration.
Factors that can speed up diffusion include increasing the concentration gradient (larger difference in concentrations), higher temperature (which increases molecular movement), shorter distance for diffusion to occur, smaller molecular size, and the presence of a permeable membrane.