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The temperature increases the deeper you go. For earth, the hottest area of the mantle is just before you hit the core. Here it's around 4,000 °C (7,230 °F).
The temperature of the mantle is greater at Point B than Point A. The temperature of the mantle is determined by its depth which is greater at Point B than Point A. The deeper the mantle the hotter and more pressurized it is and so the temperature at Point B will be greater than at Point A.Temperature can also be affected by other factors such as the composition of the mantle and the presence of radioactive elements. In this case since both points are in the same area and have similar composition the temperature will be determined by the depth.To summarize the temperature of the mantle is greater at Point B than Point A because it is deeper and thus more pressurized and hot.
These are the choices: A) Because the atoms have different shapes. B) Because the atoms have different sizes. C) Because the electron density is uniform. D) Because the electron density is greater around one atom.
Magnetic flux density = mu x magnetizing intensity. ie B = mu H. mu is known as magnetic permeability of the medium. If it is just air or vacuum, then mu is mu0 ie permeability of free space whose value is 4pi x 10 -7 H/m. If it is other than air or vacuum then the permeability will be mur mu0 where mur is known as relative permeability. If mur is less than one then the magnetic material will be dia magnetic. If mur is slightly greater than one then magnetic material is para magnetic. If mur is very much greater than one then magnetic material is ferro magnetic.
In vanderwaal's Equation 'a' measures the intermolecular force of attraction and 'b' measures the volume of the molecule. N2 has greater volume (due to it's larger size) and hence 'b' is greater for N2. NH3 has greater dipole moment and hence 'a' is greater for NH3.
the density will be greater at point B because my mommy says
at point A
It depends on the material and the location of points a and b.
The answer depends on where points b and c are!
the heat makes the density less or more dence depending were it is in the earths layers
The temperature increases the deeper you go. For earth, the hottest area of the mantle is just before you hit the core. Here it's around 4,000 °C (7,230 °F).
object B has greater density recall the formula for density is = mass/volume since volume is the same, a greater mass will give a greater density
The answer may just depend on what points B and C represent, don't you think?
B
B/c the density of the ice cube is greater than the density of the air.
The temperature of the mantle is greater at Point B than Point A. The temperature of the mantle is determined by its depth which is greater at Point B than Point A. The deeper the mantle the hotter and more pressurized it is and so the temperature at Point B will be greater than at Point A.Temperature can also be affected by other factors such as the composition of the mantle and the presence of radioactive elements. In this case since both points are in the same area and have similar composition the temperature will be determined by the depth.To summarize the temperature of the mantle is greater at Point B than Point A because it is deeper and thus more pressurized and hot.
The density of rock B is greater because its volume is less.