It depends on the season and location
The area of a circle is pi*(radius)^2. If the 8 ft is the diameter, the area is pi*(4 ft)^2~=50.27 ft^2 (ft^2 is square feet)
1 yd = 3 ft 29/ 3 = 9 and a remainder of 2 answer: 9 yards, 2 feet
1 yard = 3 ft so 4x3=12 -2 = 10 ft
1 m² is approximately 10.76 ft². Then: 250 m² * 10.76 ft² / m² ≈ 2691 ft²
2yd 2ft = 8ft 8ft x 5 = 40 ft 40ft = 13yd 1ft
The relationship between underground temperature and depth is that the temperature increases as you go deeper underground. This is because the Earth's core is hot, and heat is transferred from the core to the surface.
For a 175 ft run of underground wiring to a church sign, it is recommended to use 10-2 wiring. This size will ensure that the wiring can handle the voltage drop over the distance without issues.
The relationship between temperature and depth underground is that the temperature generally increases as you go deeper underground. This is because the Earth's interior is hot, and the heat from the Earth's core gradually warms up the surrounding rock and soil as you move deeper underground.
Underground pipes can freeze when the temperature drops below 32 degrees Fahrenheit (0 degrees Celsius).
Gasoline is stored in tanks underground. The outside temperature has no effect on the temperature of the fuel stored underground.
2 ft/1 yard = 2 ft/3 ft = 2/32 ft/1 yard = 2 ft/3 ft = 2/32 ft/1 yard = 2 ft/3 ft = 2/32 ft/1 yard = 2 ft/3 ft = 2/3
Red Bluff Reservoir 2,842 ft
Short answer yes!....there is one in japan that's 150 ft underground.
52 C°
Metamorphic rocks are produced by changing other rocks with temperature and pressure underground.
The temperature at a depth of 100 feet underground remains relatively constant, typically around 50-60 degrees Fahrenheit.
Yes, there is a difference in temperature between the surface of the Earth and 3 inches underground. The surface temperature is influenced by various factors like sunlight, weather, and seasons, leading to fluctuations. However, the temperature underground tends to be more stable due to the insulating properties of soil and rock.