The average depth of the continental shelf is 200 kilometers.
Russia is so large that it a. Spans 11 time zones b. Spans 24 times zones c. Border eight other countries d. Has more than 1,000 ocean ports
10 km:
°C
50 km:
°C
80 km:
°C
Answer: 10 km is -50 degrees Celsius
50 km is 0 degrees Celsius
80 km is -85 degrees Celsius
Explanation:
Answer:
give me brin
Explanation:
The temperature of the atmosphere varies with altitude. Here are the approximate temperatures at each of the given altitudes:
1. 10 km:
At an altitude of 10 km, the approximate temperature is around -50 to -60 degrees Celsius. This altitude is within the troposphere, the lowest layer of the atmosphere, where temperature generally decreases with increasing altitude.
2. 50 km:
At an altitude of 50 km, the approximate temperature is around -70 to -80 degrees Celsius. This altitude is within the mesosphere, which is the third layer of the atmosphere. In the mesosphere, temperature decreases with increasing altitude, and it is colder compared to the troposphere.
3. 80 km:
At an altitude of 80 km, the approximate temperature is around -100 to -120 degrees Celsius. This altitude is within the thermosphere, the second highest layer of the atmosphere. The thermosphere is characterized by very low densities and high temperatures due to the absorption of high-energy solar radiation.
It is important to note that these temperatures are approximate and can vary depending on various factors such as time of day, season, and geographical location. Additionally, the temperature profiles can exhibit variations due to atmospheric phenomena such as inversions or anomalies.
Answer:
the volume of the cylindrical construction pipe is approximately 1490.74 cubic feet.
Explanation:
To find the volume of a cylindrical construction pipe, we can use the formula V = πr^2h, where V is the volume, r is the radius, and h is the height or length of the pipe.
In this case, the radius of the pipe is given as 3.5ft, and the length of the pipe is given as 38ft.
Let's substitute these values into the formula:
V = π * (3.5ft)^2 * 38ft
To calculate the volume, we need to square the radius and then multiply it by the length of the pipe, and finally multiply by π (pi), which is approximately 3.14159.
V = 3.14159 * (3.5ft)^2 * 38ft
Simplifying the equation further:
V = 3.14159 * 12.25ft^2 * 38ft
Now, we can calculate the volume:
V = 3.14159 * 12.25ft^2 * 38ft
V ≈ 3.14159 * 474.25ft^3
V ≈ 1490.74ft^3
Therefore, the volume of the cylindrical construction pipe is approximately 1490.74 cubic feet.