If you were 3000 years old you would be 3000 years old.
In 3000 years? That would be 1,095,000
A depth of 1 kilometer (1,000 meters) typically refers to the upper layers of the ocean or certain geological formations, such as sediment layers. At this depth, the average temperature is around 3.5 degrees Celsius, which is common in deep ocean environments where sunlight does not penetrate. This temperature is relatively stable, as deep ocean waters are insulated from the warmer surface waters. Thus, the combination of depth and temperature reflects the characteristics of deep-sea ecosystems.
the answer is 42.9 % 30 X 100 = 3000 3000 : 70 = 42.85714286
At 3000 degrees Celsius, gold would be in a molten state, as its melting point is 1064 degrees Celsius. In this liquid state, gold would be highly reactive and easily form alloys with other metals due to its high temperature. The intense heat would also cause the gold to emit a bright yellow-white light, similar to the color of the metal itself.
A star with a temperature of 3000 degrees Celsius would appear red in color. This is because as the temperature of a star decreases, its color shifts towards the red end of the spectrum.
No, new igneous rock forms from the melting of pre-existing rock due to an increase in temperature with depth. If Earth's temperature did not increase with depth, there would not be enough heat to melt rocks and form new igneous rock.
There is no way to measure the temperature at the Earth's core directly. We know from mines and drill holes that, near the surface of the Earth, the temperature increases by about 1 degree Fahrenheit for every 60 feet in depth. If this temperature increase continued to the center of the Earth, the Earth's core would be 100,000 degrees Celsius! But nobody believes the Earth is that hot; the temperature increase must slow down with depth and the core is probably about 3000 to 5000 degrees Celsius.
Both temperature and pressure increase with depth.
false, the temperature increases with depth
temperature increases with depth
The water temperature at depth calculator offers features such as depth input, temperature input, and calculation of temperature changes based on depth. These features help determine accurate temperature readings in different water depths by accounting for the effects of pressure and depth on water temperature.
The volume of gas at a depth of 100 feet would depend on the pressure and temperature at that depth. As pressure increases with depth, gas volume decreases. To calculate the exact volume, you would need to know the specific pressure and temperature conditions at that depth.
The temperature increases with increasing depth within Earth's crust.
The pressure at a depth of 3000 km in the Earth's mantle is estimated to be around 135 GPa (gigapascals), which is equivalent to about 1.35 million atmospheres of pressure. This immense pressure is a result of the weight of the overlying rocks and the gravitational forces acting on the materials at that depth.
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A temperature of 3000 degrees Kelvin is quite hot. For reference, the surface of the sun is around 5800 Kelvin. At 3000 Kelvin, most materials would be glowing red-hot or even white-hot depending on their composition.