Answer;
A. of a private residence becoming publicly important
Frank Lloyd Wright's Fallingwater house is best described as an example of a private residence becoming publicly important.
Explanation;
Frank Lloyd Wright first became known for his Prairie Style of architecture which incorporated low pitched roofs, overhanging eaves, a central chimney, and open floor plans which, he believed was the antidote to the confined, closed-in architecture of the Victorian era.
Falling water is a house designed by architect Frank Lloyd Wright in 1935 in rural southwestern Pennsylvania. The house was designated a National Historic Landmark in 1966.
Answer:
A. of a private residence becoming publicly important
Frank Lloyd Wright's Fallingwater house is best described as an example of a private residence becoming publicly important.
Explanation:
Did it on edge
the answer is d. on ed2020
Answer:
pupils
Explanation:
When we step out into bright light, the pupil will contract, reducing the amount of light entering into the eye and protecting our retinas, as well as allowing us to see more clearly. The reason we blink and screw our eyes up in this situation is that this change in pupil size isn't instantaneous.
Answer:
Your pupils
Explanation:
When you all of the sudden go into a bright light, your pupils become smaller to adjust to the brightness. When you go back to a less dark space, your pupils will enlarge.
Answer:
Parasitism.
Explanation:
The relationship between a tomato plant and the hornworm caterpillar is parasitism because parasitism is a type of symbiotic relationship in which one organism get benefits and the other get harmed. We know that hornworm caterpillar feed on leaves and destroy the tomato crop. So it gets nutrients from tomato plant and the tomato plant is negatively affected. The input of this system is the vegetative part of tomato plant while the output is the conversion of hornworm caterpillar into a moth.
A force is said to have done work, if it manages to cause a displacement in an object from its starting point. Power can be defined as the rate of doing work. The work can be calculated using the following formula:
Work done ⇒ Force × Displacement
The power can be calculated using the following formula:
Power ⇒ Work ÷ Time
In order to calculate the work and power, the force and distance should be known. The force and distance will help calculate the work, which will help in the calculation of the power of the object.
Hence, the answer is 'you must known force and distance to calculate both'.
Work and power, concepts from physics, are similar in that both require knowledge of force and distance for their calculation.
Work and power are both concepts dealing with energy in physics. The correct statement that describes how work and power are similar is 'You must know force and distance to calculate both.' To calculate work, the formula is work = force x distance. For power, which is the rate at which work is done, the formula is power = work/time. Although time is included in the calculation for power, it's not required in the calculation for work. Thus, force and distance are the key common components needed for both calculations.
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Energy is converted from one form to another.
Energy is created by the reaction.
Energy is used up by the chemical reaction.
The answer would be "B".