bumps from two surfaces come into contact.
Sandstone: formed by the cementation of sand grains. Conglomerate: formed by the cementation of rounded pebbles. Siltstone: formed by the compaction of silt-sized particles. Shale: formed by the compaction of clay and silt particles.
Sedimentary rocks formed from the remains of plants and animals are called organic sedimentary rocks. Examples include coal, formed from the remains of plants, and limestone, formed from the shells of marine organisms.
Igneous, metamorphic, and sedimentary are the three types of rocks. Sedimentary is formed when layer of mud or silt build up gradually. Igneous is formed when molten magma cools. Metamorphic is formed when a type of rock changes to another type
The Extrusive igneous rock is formed on the earths surface while the Intrusive igneous rock is formed within or inside the earths crust.
To determine the grams of sulfur formed, we need to first identify the balanced chemical equation for the reaction involving sulfur. Once we have the balanced equation, we can use stoichiometry to determine the mass of sulfur formed using the given value of water formed.
microwelds
Microwelds are tiny metallurgical bonds formed between contacting surfaces under high pressure and temperature. These bonds can increase friction by creating adhesion between the surfaces, leading to stiction. However, in some cases, microwelds can also reduce friction by providing contact points that distribute load and reduce surface roughness.
break it.
A microweld is an area where the microscopic bumps on two surfaces stick together. Microwelds are the source of friction.
Friction is created when bumps from two surfaces come into contact, which resists motion and generates heat.
microwelds
The force caused by tiny collisions called microwelds on surfaces that are stuck together is called friction. Friction is the resistance to motion when two surfaces are in contact with each other. Microwelds are small points of contact where atoms on the surfaces bond together, creating resistance to movement.
fricton
When bumps from two surfaces come into contact, they can create friction, which is a force that resists the motion between the two surfaces. This friction can lead to heat generation and wear on the surfaces.
the larger the force pushing the two surfaces together the stronger the microwelds will be , because more of the surface bumps will come into contact , to move one surface over an other , a force must be applied to break the microwelds .
The force caused by tiny collisions called microwelds on surfaces stuck together is known as adhesion force. These microwelds form when the surfaces come into close contact, creating intermolecular attractive forces that hold the surfaces together.
the larger the force pushing the two surfaces together the stronger the microwelds will be , because more of the surface bumps will come into contact , to move one surface over an other , a force must be applied to break the microwelds .