Ordinary springs are commonly found in steep terrain because the steep slopes allow for more rapid infiltration of water into the ground. This water then flows through the underground rock layers until it reaches a point where it is discharged as a spring. The steep terrain also provides pressure that helps push the water to the surface, creating springs.
Yes, the amount of gas can affect the pressure of the gas. According to Boyle's Law, if the temperature is constant, increasing the amount of gas in a container will result in an increase in pressure. Conversely, decreasing the amount of gas will result in a decrease in pressure.
A. An increase in pressure from 2 ATM to 3 ATM will result in a decrease in volume of gas. B. An increase in pressure from 3 ATM to 4 ATM will result in a decrease in volume of gas. C. A decrease in pressure from 4 ATM to 1 ATM will result in an increase in volume of gas. D. An increase in pressure from 1 ATM to 3 ATM will result in a decrease in volume of gas.
Lower temperature, higher pressure, and increased surface area of the gas bubbles would result in being able to dissolve a greater amount of gas in a solution.
Yes, the pressure exerted by a gas is a result of the ideal gas law, which describes the relationship between pressure, volume, temperature, and amount of gas molecules. The formula PV = nRT represents the ideal gas law, where P is pressure, V is volume, n is the number of moles of gas, R is the gas constant, and T is temperature.
high winds
high winds
High winds
The result is a cinder cone.
---STRONGER
The result is a cinder cone.
The result is a cinder cone.
The result is a cinder cone.
The result is a cinder cone.
it will make strong winds blow. (A+)
Wind will move faster over a steep hill than a gently sloping hill because the steep slope accelerates the airflow, leading to a decrease in air pressure on the windward side of the hill. This pressure difference drives faster wind speeds as air moves from high pressure to low pressure areas.
The result is a cinder cone.