Here are the answers for this quick check :>
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Q1) An element is highly conductive, highly reactive, soft, and lustrous. The element most likely belongs to which group?
A1) alkali metals
Q2) How does mercury differ from other metals?
A2) It is not solid under normal conditions.
Q3) 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?
A3) phosphorus (P)
Q4) Use the periodic table to answer the question.
In which group of elements does tellurium (Te) belong?
A4) metalloids
Q5) Which statement describes the properties of lanthanoids and actinoids?
A5) They are malleable and lustrous, and they tend to conduct both electricity and thermal energy.
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To get the answer for Q1, we can analyze the given information about the element. It is highly conductive, highly reactive, soft, and lustrous. These characteristics are commonly associated with alkali metals. By knowing that alkali metals have these properties, we can conclude that the element most likely belongs to the alkali metals group.
For Q2, the question asks how mercury differs from other metals. To answer this, we need knowledge about the properties of mercury. We can determine that mercury differs from other metals because it is not solid under normal conditions. This information can be found through research or prior knowledge about the physical state of mercury.
Q3 asks us to use the periodic table to answer the question. The question seeks to find the least malleable element in its solid state based on patterns in the periodic table. To answer this, we need to have knowledge about the periodic table and understand the concept of malleability. By examining the periodic table and considering the trends in malleability, we can determine that phosphorus (P) is the least malleable element in its solid state.
Q4 also requires the use of the periodic table to answer the question. The task is to identify the group of elements to which tellurium (Te) belongs. By referring to the periodic table, we can locate tellurium and identify its group. In this case, tellurium belongs to the group of metalloids.
Lastly, Q5 asks for a statement describing the properties of lanthanoids and actinoids. To answer this, we need knowledge about these groups of elements. By understanding the properties of these elements, we can describe them as malleable and lustrous, and they tend to conduct both electricity and thermal energy. This information can be learned through studying the periodic table and researching about the lanthanoids and actinoids.