When a horizontal pressure is applied to rocks, the earth's surface will form lines that are perpendicular to the direction of the pressure. This can be compared to folds in a wrinkled rug lying on a floor.
after a numerous amout of pressure BAM! you have a broken bone CONGRATES!
When pressure is applied on the sides of a plate, the plate will experience deformation and may bend or flex. The amount of deformation will depend on the material properties of the plate and the magnitude of the pressure applied. If the pressure exceeds the strength of the plate, it may result in permanent damage or failure.
When pressure is applied to ice crystals, they may melt and transition into water if the pressure exceeds the melting point of ice. This process is known as pressure melting. Under high pressure, ice can also transform directly into water vapor through sublimation without melting first.
Electrons are not part of the atomic nucleus.
the pressure and the temperature increases, and the volume is reduced.
pressure
decay
is move themselves
It is brittle
It is compressed and occupies a smaller volume.
When a horizontal pressure is applied to rocks, the earth's surface will form lines that are perpendicular to the direction of the pressure. This can be compared to folds in a wrinkled rug lying on a floor.
after a numerous amout of pressure BAM! you have a broken bone CONGRATES!
When force is increased, pressure also increases. Pressure is directly proportional to force, according to the formula Pressure = Force/Area. This means that the more force applied over a given area, the higher the pressure will be.
When pressure greater than atmospheric pressure is applied to pure water or a solution, the boiling point of the water/solution will increase. This means that the liquid will need to reach a higher temperature before it boils. Conversely, if the pressure decreases below atmospheric pressure, the boiling point will decrease, requiring a lower temperature for boiling to occur.
When the force applied to a given area increases, the pressure also increases. This relationship is described by the equation pressure = force/area, so if force increases and area remains constant, pressure will increase.
When pressure is applied on the sides of a plate, the plate will experience deformation and may bend or flex. The amount of deformation will depend on the material properties of the plate and the magnitude of the pressure applied. If the pressure exceeds the strength of the plate, it may result in permanent damage or failure.