On the contrary, the main force in the nucleus keeps particles together. This is called the strong nuclear force, and it keeps similarly charged protons together, overcoming the electrostatic
When tension stresses inside Earth pull rocks apart, fractures known as faults are formed. These faults can lead to earthquakes as accumulated stress is suddenly released along the fault plane.
The fibers that shorten and pull the chromatids apart are called microtubules. During cell division, microtubules form the spindle apparatus and attach to the chromosomes to facilitate their separation.
When there is a divergent boundary, regardless if the plates are ocean-ocean or continental-continental, tensional stress pulls on the crust. Rocks have weaker tensional strength than compressive strength, so they are easier to pull apart.
The process called plate tectonics is responsible for plates pulling apart. Over time, and with the combination of carbon dioxide, erosion, and force, plates are able to pull apart. This will eventually cause some plates to separate from one another.
When to plates pull apart on the ocean floor it's called "Tectonic Plate Drift or, "Contenetial Drift." This allows countries to move centimeters every year in any direction the plate travel. Sometimes the plates rub and can cause earthquakes ,volcanos or tsunamis.
When tension stresses inside Earth pull rocks apart, fractures known as faults are formed. These faults can lead to earthquakes as accumulated stress is suddenly released along the fault plane.
Divergent Pull Ex.<--_-->
Compressional stresses (reverse or thrust fault) cause a rock to shorten. Tensional stresses (normal fault) cause a rock to elongate, or pull apart. Shear stresses (strike-slip or horizontal fault) causes rocks to slip past each other.
The fibers that shorten and pull the chromatids apart are called microtubules. During cell division, microtubules form the spindle apparatus and attach to the chromosomes to facilitate their separation.
If they are farther apart, there is less gravitational pull. Opposite if they are closer together.
When two magnets pull apart or push together, it is called magnetic attraction or repulsion. Magnetism results from the force between charged particles in magnetic materials.
The pull of all objects in the universe on one another is due to gravity. Gravity is a force of attraction that depends on the masses of the objects and their distance apart. This force influences the motion of celestial bodies and holds galaxies together.
During the middle ages, they'd use 4 horses to pull a person apart attaching a limb to each horse, as the picture above shows, it was called being "drawn and quartered" or "disruption".
The process called plate tectonics is responsible for plates pulling apart. Over time, and with the combination of carbon dioxide, erosion, and force, plates are able to pull apart. This will eventually cause some plates to separate from one another.
When there is a divergent boundary, regardless if the plates are ocean-ocean or continental-continental, tensional stress pulls on the crust. Rocks have weaker tensional strength than compressive strength, so they are easier to pull apart.
Some magnets are stronger than others, making them harder to pull apart. For strong magnets, you can pull the magnets sideways to get them apart.
They are all mechanical stresses. Push is a compressive stress. Pull is a tensile stress and Twist is a type of shear stress.