Use the periodic table to answer the question.
Based on patterns in the periodic table, which element is the least malleable in its solid state?
Based on patterns in the periodic table, the least malleable element in its solid state is likely to be a noble gas, such as helium (He), neon (Ne), argon (Ar), krypton (Kr), xenon (Xe), or radon (Rn). Noble gases are known for their low reactivity and lack of chemical bonding, making them difficult to shape or deform.
Use the periodic table to answer the question.
Based on patterns in the periodic table, which element is the least malleable in its solid state?
A. phosphorus (P)
B. copper (Cu)
C. antimony (Sb)
D. strontium (Sr)
Based on patterns in the periodic table, the least malleable element in its solid state among the options provided is A. phosphorus (P). Phosphorus is a nonmetal element located in Group 15 of the periodic table. Nonmetals tend to be less malleable than metals, as they lack the properties of metallic bonding that allow for easy deformation. Copper (B), antimony (C), and strontium (D) are all metals and therefore more malleable in their solid state compared to phosphorus.
To determine which element is the least malleable in its solid state, we need to understand the patterns in the periodic table. Malleability refers to the ability of a substance to be hammered or rolled into thin sheets without breaking. In general, elements on the right side of the periodic table tend to be less malleable than those on the left.
The periodic table is divided into different blocks: s-block, p-block, d-block, and f-block. The s-block elements are located on the left side of the periodic table, while the p-block elements are found on the right.
Elements in the p-block tend to be less malleable due to their atomic structure. Additionally, elements in the non-metal group tend to be less malleable compared to metals.
Based on this information, the element that is least malleable in its solid state would likely be found in the p-block on the right side of the periodic table and may be a non-metal. However, it is important to note that malleability is influenced by other factors as well, such as intermolecular forces or lattice structure of the solid, so the answer may not be definitive for all elements in the p-block.
A specific element cannot be determined without more information.
To answer this question using the periodic table, you need to consider the trend of malleability across the periodic table. Malleability refers to the ability of a substance to be deformed into a different shape without breaking. In general, elements on the left side of the periodic table tend to be more malleable compared to elements on the right side.
Elements on the left side of the periodic table, such as metals, tend to be malleable because their atoms are held together by metallic bonds, which allow for the movement of electrons and the easy deformation of the crystal structure. The farther you move to the right side, the less malleable the elements become because their atoms are held together by stronger types of bonds, such as covalent or ionic bonds.
Therefore, from the periodic table, we can conclude that the least malleable elements are typically found on the right side of the periodic table, specifically in the nonmetal and noble gas groups. Examples of elements that are less malleable include sulfur (S), phosphorus (P), and fluorine (F). However, the least malleable element in its solid state is typically considered to be the noble gas, helium (He), which is located on the far right side of the periodic table.
In summary, based on patterns in the periodic table, the least malleable element in its solid state is helium (He).