(a)
Interpretation:
Which is more likely to conduct electricity and heat: metal or non-metal should be identified.
Concept Introduction:
Elements can be classified into three categories based on their properties; that is metal, non-metal and metalloids. Metals are solid at room temperature, shiny conductors of electricity and heat, ductile and malleable. In chemical reaction, metals tend to give up electrons.
Non-metal do not conduct heat and electricity, most of the non-metals are gas at room temperature. Non-metal accept electrons at in
On the other hand, metalloids have some of the properties of metal and some of the non-metals.
(b)
Interpretation:
Which is more likely to accept electrons: metal or non-metal is to be stated.
Concept Introduction:
Elements can be classified into three categories based on their properties; that is metal, non-metal and metalloids. Metals are solid at room temperature, shiny conductors of electricity and heat, ductile and malleable. In chemical reaction, metals tend to give up electrons.
Non-metal do not conduct heat and electricity, most of the non-metals are gas at room temperature. Non-metal accept electrons at in chemical reactions.
On the other hand, metalloids have some of the properties of metal and some of the non-metals.
(c)
Interpretation:
Which is more likely to be malleable in metal and non-metal is to be stated.
Concept Introduction:
Elements can be classified into three categories based on their properties; that is metal, non-metal and metalloids. Metals are solid at room temperature, shiny conductors of electricity and heat, ductile and malleable. In chemical reaction, metals tend to give up electrons.
Non-metal do not conduct heat and electricity, most of the non-metals are gas at room temperature. Non-metal accept electrons at in chemical reactions.
On the other hand, metalloids have some of the properties of metal and some of the non-metals.
(d)
Interpretation:
Which is more likely to be gas at room temperature in metal and non-metal is to be stated.
Concept Introduction:
Elements can be classified into three categories based on their properties; that is metal, non-metal and metalloids. Metals are solid at room temperature, shiny conductors of electricity and heat, ductile and malleable. In chemical reaction, metals tend to give up electrons.
Non-metal do not conduct heat and electricity, most of the non-metals are gas at room temperature. Non-metal accept electrons at in chemical reactions.
On the other hand, metalloids have some of the properties of metal and some of the non-metals.
(e)
Interpretation:
Which is more likely to be a transition element in metal and non-metal is to be stated.
Concept Introduction:
Elements can be classified into three categories based on their properties; that is metal, non-metal and metalloids. Metals are solid at room temperature, shiny conductors of electricity and heat, ductile and malleable. In chemical reaction, metals tend to give up electrons.
Non-metal do not conduct heat and electricity, most of the non-metals are gas at room temperature. Non-metal accept electrons at in chemical reactions.
On the other hand, metalloids have some of the properties of metal and some of the non-metals.
(f)
Interpretation:
Which is more likely to lose electrons in metal and non-metal is to be stated.
Concept Introduction:
Elements can be classified into three categories based on their properties; that is metal, non-metal and metalloids. Metals are solid at room temperature, shiny conductors of electricity and heat, ductile and malleable. In chemical reaction, metals tend to give up electrons.
Non-metal do not conduct heat and electricity, most of the non-metals are gas at room temperature. Non-metal accept electrons at in chemical reactions.
On the other hand, metalloids have some of the properties of metal and some of the non-metals.
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Introduction to General, Organic and Biochemistry
- 2-73 (Chemical Connections 2D) Copper is a soft metal. how can it be made harder?arrow_forward3-58 In Section 2-3B, we saw that there are seven diatomic elements. (a) Draw Lewis structures for each of these diatomic elements. (b) Which diatomic elements are gases at room temperature? Which are liquids? Which are solids?arrow_forward2-59 You are presented with a Lewis dot structure of element X as X.. To which two groups in the Periodic Table might this element belong?arrow_forward
- 2-43 Which group(s) of the Periodic Table contain(s): (a) Only metals? (b) Only metalloids? (c) Only nonmetals?arrow_forward2-44 Which period(s) in the Periodic Table contain(s) more nonmetals than metals? Which contain(s) more metals than nonmetals?arrow_forward2-94 Using your knowledge of trends in element sizes in going across a period of the Periodic Table, exp lain why the density of the elements increases from potassium through vanadium. (Recall from Section 1-7 that specific gravity is numerically the same as density but has no units.) Element Specific Gravity K 0.862 Ca1.55 Se 2.99 Ti 4.54 V 6.11arrow_forward
- Introduction to General, Organic and BiochemistryChemistryISBN:9781285869759Author:Frederick A. Bettelheim, William H. Brown, Mary K. Campbell, Shawn O. Farrell, Omar TorresPublisher:Cengage Learning