it gets higher
When the material gets closer to the core it gets hotter and more dense.
Pressure decreases as you move outward from the Earth's core. The farther you are from the center, the less mass you will have pressing down on your location. Mass that is underneath you (or in other words, closer to the center) does not press on you, only mass that is above will add to the pressure where you are.
No. It gets hotter.
both temperature and pressure increase
Liquid
Temperature and pressure increase massively from the Earth's surface to the centre of the Earth. At the inner core, the pressure is so great that iron is solid, even at such high temperatures.
the pressure increases
It increases. The closer you get to the Earth's core - the higher the pressure (and temperature).
Because its closer to the mantle and the core.
Because its closer to the mantle and the core.
When the material gets closer to the core it gets hotter and more dense.
When the material gets closer to the core it gets hotter and more dense.
This happens mostly in the core - near the center of the Sun, where temperature and pressure are greatest.
This happens mostly in the core - near the center of the Sun, where temperature and pressure are greatest.
Yes, temperature is directly proportional to pressure. As pressure increases, temperature increases, hence the extremely high temperature at the earth's core. Actually, when air cools, its molecules huddle closer together. The air becomes more dense (higher pressure) and it sinks. temperature goes down=pressure goes up
This happens mostly in the core - near the center of the Sun, where temperature and pressure are greatest.
The outer core is liquid. Its pressure is low enough and its temperature high enough for it to melt. The inner core is solid. Both its pressure and temperature are higher than the outer core, but the increased pressure overwhelms the increased temperature, keeping the inner core from melting.