Answer:
D. By including details and statistics
The compressor, condenser, expansion valve/throttle valve, and evaporator are the four elements that make up the vapor compression cycle.
The main difficulties in vapor compression refrigeration system miniaturization for designs based on standard-scale systems have to do with component integration and miniaturization.
The most important aspect of all mechanical refrigeration systems is the creation of a compact yet effective gas compressor.
The first factor is connected to the most basic separation mechanism that comes to mind: gravity. The maximum vapor velocity that is permitted should be determined by looking at the terminal velocity of the droplets if gravity settling is to be employed as a separation technique. This will prevent the droplets from being swept away with the vapor.
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Answer:
C. It lists possible solutions to Cuban and American political issues and their economies.
Explanation:
Ted Piconet works for Foreign Policy program’s acting vice president and direction, specializing in relations between United States and countries in Latin America.
In one of his speech in United Nations' events, he address the political issues that exist between American and Cuban people due to their differing political ideologies and economic system.
At the end of his speech, he listed how people In United States can help people in Cuba with their economic problem (using their tourism service is one of the thing that Americans can do to help). Putting this call to action at the end of speech is intended to let the audience know with the roles that they can do to create solutions for the problem.
The moved later Ruth and her daughter-in-law move back after the famine because both her sons and her husband died its in the book of Ruth in the bible.
The distance that Juan de Fuca Plate would move is 290 meters.
<u>Note:</u> The Juan de Fuca Plate is moving southeast away from the Pacific Plate at a speed of 29 mm/year.
<u>Given the following data:</u>
To determine the distance that Juan de Fuca Plate would move in meters:
First of all, we would convert the value in millimeters (mm) to meters (m) as follows;
<u>Conversion:</u>
1 millimeter = 0.001 meter
29 millimeter = X meter
Cross-multiplying, we have:
X = 0.029 meter.
Speed = 0.029 meter/year.
Mathematically, the distance covered by an object is given by this formula:
Substituting the given parameters into the formula, we have;
Distance = 290 meters.
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