According to the, Kinetic Molecular theory, temperature is directly proportional to average Kinetic energy of gas particle
Explanation:
At the level of molecule kinetic energy model helps to understand the gaseous physical properties. The kinetic energy model is based on several concepts.
In the constant random motion gases are made of molecules or atoms.
The particles of gases are are constantly colliding with each other.
The particles of gas are small and the complete volume taken by gaseous molecules are negligible in comparison to complete volume of container.
Between the gas particle their is no repulsion or attraction.
Gas particles average kinetic energy is proportional to the fixed temperature of the gas, and all gas at the equivalent temperature have the equivalent average kinetic energy.
Answer:
B. are more common in natural systems altered by human actions
Explanation:
Positive feedback loops: The term "positive feedback loops" is referred to as a phenomenon that is responsible for amplifying or enhancing changes and therefore due to this, a system moves away from the state of equilibrium state to make it unstable on a large scale.
In the question above, positive feedback loops are considered more common in the natural systems that are being altered by human actions.
Example:
1. When an employee models good behavior.
2. When a colleague meets or exceeds goals.
Weather reflects short-term conditions of the atmosphere while climate is the average daily weather for an extended period of time at a certain location. ... Weather can change from minute-to-minute, hour-to-hour, day-to-day, and season-to-season. Climate, is the average of weather over time and space
The answer is :true
