What type of equilibrium would be demonstrated by this example? A lake maintains the water volume( level) because the amount of rain fall and stream input is about the same as the amount of water evaporated or soaked into the lake bed.
This is an example of water balance. In this case the equilibrium is of stable kind. That means if we try to hamper the state of equilibrium, then there is a opposite force that works to restore the equilibrium. In this case if we try to increase the rainfall then seepage into the soil or evaporation will increase to maintain the water level.
What type of equilibrium would be demonstrated by this example? A lake maintains the water volume(...
While on a camping trip, a man would like to carry water from the lake to his campsite. He fills two, non-identical buckets with water and attaches them to a 1.67 m long rod. Since the buckets are not identical, he finds that the rod balances about a point located at a length 1 = 0.0271 m from its midpoint, as shown. The weight of the rod and empty buckets is negligible compared to the weight of the water, and...
While on a camping trip, a man would like to carry water from the lake to his campsite. He fills two, non-identical buckets with water and attaches them to a 111 m long rod. Since the buckets are not identical, he finds that the rod balances about a point located at a length 1 = 0.0415 m from its midpoint, as shown. The weight of the rod and empty buckets is negligible compared to the weight of the water, and...
While on a camping trip, a man would like to carry water from the lake to his campsite. He fills two, non-identical buckets with water and attaches them to a 1.67 m long rod. Since the buckets are not identical, he finds that the rod balances about a point located at a length / = 0.0415 m from its midpoint, as shown. The weight of the rod and empty buckets is negligible compared to the weight of the water, and...
While on a camping trip, a man would like to carry water from the lake to his campsite. He fills two, non-identical buckets with water and attaches them to a 1.83 m long rod. Since the buckets are not identical, he finds that the rod balances about a point located at a length 1 = 0.0223 m from its midpoint, as shown. The weight of the rod and empty buckets is negligible compared to the weight of the water, and...
While on a camping trip, a man would like to carry water from the lake to his campsite. He fills two, non-identical buckets with water and attaches them to a 1.03 m long rod. Since the buckets are not identical, he finds that the rod balances about a point located at a length 1 = 0.0127 m from its midpoint, as shown. The weight of the rod and empty buckets is negligible compared to the weight of the water, and...
While on a camping trip, you would like to carry water from the lake to your campsite. You have two non- identical buckets which you attach to a 1.43 m long rod. Since the buckets are not identical, you find that the rod balances about a point 1.27 cm from its midpoint, as shown below. The weight of the rod and empty buckets are negligible compared to the weight of the water. Which bucket holds more water? bucket 2 1.27...
The volume of water that a stream moves in a given amount of time is known as the stream's discharge In general, stream discharge will be velocity. 1 square 1 square meter Stream B Stream A Velocity: 30 meters/second Velocity: 10 meters/second Consider the above figure depicting a side view of the cross-section of two streams Each square represents one square meter (1 m) Think about which one would have greater discharge. (Develop a hypothesis.) Now let's test your hypothesis....
What type of marketing are you likely to fall for? Give an example of your worst purchase. You are the entrepreneur you have a product or business you have dreamed about. Tell us your dream and how you would market it.
A researcher studies water clarity at the same location in a lake on the same dates during the course of a year and repeats the measurements on the same dates 5 years later. The researcher immerses a weighted disk painted black and white and measures the depth (in inches) at which it is no longer visible. The collected data is given in the table below. Complete parts (a) through (c) below. Observation 1 2 3 5 6 Date 1/25 3/195/30...
A researcher studies water clarity at the same location in a lake on the same dates during the course of a year and repeats the measurements on the same dates 5 years later. The researcher immerses a weighted disk painted black and white and measures the depth (in inches) at which it is no longer visible. The collected data is given in the table below. Complete parts (a) through (c) below. Observation 1 2 3 5 6 Date 125 3/195/307/39/13...