The material commonly used to hold the top layer of stones together is mortar, typically made from a mixture of cement, sand, and water. Mortar provides adhesion and stability, ensuring the stones remain securely in place. In some cases, other binding agents like lime or epoxy may also be used depending on the specific requirements of the construction project.
The top layer of stones was typically held together using a mixture of lime mortar or cement. These binding agents provided structural stability and helped to fill gaps between the stones, ensuring they stayed securely in place. In some historical contexts, clay or natural adhesives may also have been used. The choice of material often depended on the region and the specific construction techniques of the time.
Hold polar molecules together
Covalent bonds generally hold polymers together.
Hold everything together means to keep your composure and keep everyone around you together and composed as well.
The great buildings of Cusco, constructed by the Inca civilization, utilized a technique called ashlar masonry, where stones were precisely cut and shaped to fit together tightly without the need for mortar. This method allowed for a strong interlocking structure that could withstand seismic activity, which is crucial in the earthquake-prone region. The careful craftsmanship and the weight of the stones themselves contributed to the stability and durability of these structures. This approach also allowed for flexibility and movement, further enhancing their resilience over time.
Sand and or Gravel. I am assuming your talking about Roman Roads? Because Roman roads are made up of 4 layers one is large stones then small stones and the layer before the 4th layer is a mix of gravel and sand, the they put a layer of large smooth stones, so really the answer is sand AND gravel. Your from Conections Academey right? Next time just look it up in a text book!
The top layer of stones was typically held together using a mixture of lime mortar or cement. These binding agents provided structural stability and helped to fill gaps between the stones, ensuring they stayed securely in place. In some historical contexts, clay or natural adhesives may also have been used. The choice of material often depended on the region and the specific construction techniques of the time.
The stones were cut so precisely that mortar was not required.
The stones were cut so precisely that mortar was not required.
stone and mortar to hold the stones together
The uppermost layer of soil that is covered in grass and the roots that hold it together. This layer can be cut and removed in slabs or rolls.
The stones were cut so precisely that mortar was not required.
A single layer DVD can hold 4.7gb and a double layer can hold 9.4gb
The layer of the skin that contains spine-like projections to hold cells tightly together is the stratum spinosum. This layer is located above the stratum basale and is characterized by the presence of desmosomes, which are intercellular junctions that resemble spines and provide structural support. The stratum spinosum plays a crucial role in the skin's strength and flexibility.
192 stones
Mortar, in brickwork and stone work is a mix of cement, lime and sand, mixed with water to make a binding agent to hold the bricks or stones together.
CDs cannot hold 4gb but a single layer DVDR can. CDs cannot hold 4gb but a single layer DVDR can.