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Concept explainers
(a)
Interpretation : We need to identify HBr as polar or non-polar molecule.
Concept Introduction : The
(b)
Interpretation : We need to identify SiO2 as polar or non-polar molecule.
Concept Introduction : The chemical bonds can be classified as ionic bond and covalent bonds. Ionic bonds are formed between cation and anion. Here both of these are charged ions. On the contrary, covalent bond is formed by equal sharing of electrons. Further covalent bond can be classified as polar and non-polar covalent bond.
(c)
Interpretation : We need to identify NCl3 as polar or non-polar molecule.
Concept Introduction : The chemical bonds can be classified as ionic bond and covalent bonds. Ionic bonds are formed between cation and anion. Here both of these are charged ions. On the contrary, covalent bond is formed by equal sharing of electrons. Further covalent bond can be classified as polar and non-polar covalent bond.
(d)
Interpretation : We need to identify CH3Cl as polar or non-polar molecule.
Concept Introduction : The chemical bonds can be classified as ionic bond and covalent bonds. Ionic bonds are formed between cation and anion. Here both of these are charged ions. On the contrary, covalent bond is formed by equal sharing of electrons. Further covalent bond can be classified as polar and non-polar covalent bond.
(e)
Interpretation : We need to identify NI3 as polar or non-polar molecule.
Concept Introduction : The chemical bonds can be classified as ionic bond and covalent bonds. Ionic bonds are formed between cation and anion. Here both of these are charged ions. On the contrary, covalent bond is formed by equal sharing of electrons. Further covalent bond can be classified as polar and non-polar covalent bond.
(f)
Interpretation : We need to identify H2O as polar or non-polar molecule.
Concept Introduction : The chemical bonds can be classified as ionic bond and covalent bonds. Ionic bonds are formed between cation and anion. Here both of these are charged ions. On the contrary, covalent bond is formed by equal sharing of electrons. Further covalent bond can be classified as polar and non-polar covalent bond.
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Chapter 10 Solutions
Pearson eText Basic Chemistry -- Instant Access (Pearson+)
- 11.114 2.00 L of N,, at 25 °C and 1.08 atm, is mixed with 4.00 I of O2, at 25 °C and 0.118 atm, and the mixture is allowed to react. How much NO, in grams, is produced? (9.2, 9.3, 11.7, 11.8) N2(g) + O2(8) → 2NO(8)arrow_forwardshould react most rapidly with Cl2 and AICI. (9.28.h) should have the highest boiling point, 7. Of the compounds shown below, B A. D. 8. Of the compounds shown below, NO2 HO, is not aromatic. (9.1 lg,i) 9. Of the compounds shown below, only - D Z-I Uarrow_forward9.116 Lithium chloride has a solubility of 55 g of LiCl in 100. g of H,O at 25 °C. Determine if each of the following mixtures forms an unsaturated or saturated solution at 25 °C: (9.3) a. adding 10 g of LiCl to 15 g of H;O b. adding 25 g of LİCI to 50. g of H,0 c. adding 75 g of LiCl to 150. g of H,O ne on nearrow_forward
- (6.3)The volume of a gas is 0.953 L at 30.0 °C. If the gas is heated to 60.0 °C, what would be the volume of the gas (in L) at this temperature? O 1.05 L O 0.867 L O 1.91 L O 0.477 Larrow_forward1. (10.3- 1.24)/18.43 2. A penny minted after 1982 has a mass of 2.5 g Calculate total mass of three such pennies. 3. The following are placed in a beaker weighing 39.457 g: 2.689 g of NaCl, 1.26 g of sand and 5.0 g water. What is the final mass of the beaker? 4. If the beaker containing a sample of alcohol weighs 49.8767 g and the empty beaker weighs 49.214 g, what is the weight of the alcohol? 5. A flask that weighs 345.8 g is filled with 225 mL of carbon tetrachloride. The weight of the flask and carbon tetrachloride is found to be 703.55 g. From this information, calculate the density of carbon tetrachloride.arrow_forwardWhat is the pH of a 0.25 M solution of a strong acid? (0.6)arrow_forward
- should react most rapidly with Clz and AICI. (9.28 h) 8. Of the compounds shown below, NO2 HO. D. 9. Qarrow_forwarddoes it compare with the known melting and boiling point? (1) 9. The average kinetic energy of water molecules is a measure of the temperature of water. When the temperature of water remains constant the average kinetic energy of the molecules remains constant, even though the water is being heated by the Bunsen flame. So, energy is being taken in by the water, but it is not being used to increase the kinetic energy of the molecules. 9.1 What type of energy are the water molecules gaining during a phase change? (1) 9.2 Explain your reasoning (to question 9.1) with reference to the kinetic theory of matter. 10. Write the conclusion. (3) [30]arrow_forwardHonors Chemistry-4th Hour- Dr. Paul / Gases / Lesson 148 11. Which state of matter is most accurately described by the kinetic molecular theory? O gas aqueous solid O liquid available! (3.0.227)arrow_forward
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