2.99 See Answer

Question: Convert 5.0 qt to: a. gal


Convert 5.0 qt to:
a. gal
b. pt
c. L
d. mL
e. µL



> Critique this statement: Promotion of electrons is accompanied by a release of energy.

> The density of mercury is 13.6 g/mL. If a sample of mercury weighs 272 g, what is the volume of the sample in mL?

> When electrical energy is applied to an element in its gaseous state, light is produced. How does the light differ among elements?

> The specific gravity of a patient’s urine sample was measured to be 1.008. Given that the density of water is 1.000 g/mL at 40C, what is the density of the urine sample?

> What is the relationship between the energy of light and its wavelength?

> The density of methanol at 200C is 0.791 g/mL. What is the mass of a 50.0 mL sample of methanol?

> Describe electromagnetic radiation according to its particle nature.

> Refer to Question 1.129. Suppose that each of the bars had the same mass. How could you determine which bar had the lowest density and which had the highest density? Question 1.129: You are given three bars of metal. Each is labeled with its identity (

> Predict the polarity of each compound in Question 3.98. Question 3.98: a. SeO2 b. SeO3

> You are given a piece of wood that is either maple, teak, or oak. The piece of wood has a volume of 1.00 × 102 cm3 and a mass of 98 g. The densities of maple, teak, and oak are as follows: What is the identity of the piece of wood? Woo

> K+ and Ar are isoelectronic. Which is larger? Why?

> What is meant by the term electromagnetic spectrum?

> What is the mass of a femur (leg bone) having a volume of 118 cm3? The density of bone is 1.8 g/cm3.

> Draw a diagram representing a homogeneous mixture of two different substances. Use two different colored spheres to represent the two different substances.

> Arrange each of the following lists of elements in order of decreasing electron affinity: a. Mg, P, Cl b. Br, I, Cl

> Calculate the density of 50.0 g of an isopropyl alcohol– water mixture (commercial rubbing alcohol) that has a volume of 63.6 mL.

> Arrange each of the following lists of elements in order of increasing ionization energy: a. Cl, Br, I b. Ra, Be, Mg

> Write the electron configuration and shorthand electron configuration of each of the following biologically important ions: a. Ca2+ b. Mg2+ c. K+ d. Cl-

> The energy available from the world’s total petroleum reserve is estimated at 2.0 × 1022 J. Convert this energy to kcal.

> A physiological solution designed to replace a patient’s lost K+ is 40 meq/L in K+ and 40 meq/L in Cl-. a. Calculate the number of mol of K+ in 1.00L of solution. b. Calculate the number of mol of Cl- in 1.00L of solution.

> Which of the following pairs of atoms and/or ions are isoelectronic with one another? a. F-, Cl- b. K+, Ar

> Write an equation for the addition of an electron to a gaseous atom of chlorine.

> The weather station posted that the low for the day would be -100F. Convert -10.00F to: a. 0C b. K

> Define electron affinity.

> Give the most probable ion formed from each of the following elements. a. O b. Br c. Al

> If the potassium ion concentration in the solution described in Question 6.113 was only 35 meq/L, calculate the potassium ion concentration in units of mol/L. Question 6.113: A potassium chloride solution that also contains 5% (m/V) dextrose is adminis

> Label each of the following statements as true or false. If false, correct the statement. a. Energy can be created or destroyed. b. Energy can be converted from electrical energy to light energy. c. Conversion of energy from one form to another can occur

> Why is the melting point of silicon much higher than that of argon, even though argon has a greater molar mass?

> Rank the following temperatures from coldest to hottest: zero degrees Celsius, zero degrees Fahrenheit, zero Kelvin

> Calculate the number of eq/L of SO42- in a solution that is 2.5 × 10-3 M in SO42-.

> Explain why a dialysis solution must have an elevated potassium ion concentration when loss of potassium ions from the blood is a concern.

> The sequence of a gene on the mRNA is normally AUGCCCGACUUU. A point mutation in the gene results in the mRNA sequence AUGCCGGACUUU. What are the amino acid sequences of the normal and mutant proteins? Would you expect this to be a silent mutation?

> Predict the number of valence electrons in an atom of: a. carbon b. phosphorus c. sulfur d. chlorine

> The pH of blood plasma from a patient was found to be 7.6, a life-threatening situation. Calculate the ratio [HCO3-]/[H2CO3] in this sample of blood plasma. (Ka of H2CO3, carbonic acid, is 4.5 × 10-7.)

> Which volume is smaller: 1.0 L or 1.0 qt?

> Highly substituted alkyl fluorides, called perfluoroalkanes, are often used as artificial blood substitutes. These perfluoroalkanes have the ability to transport O2 through the bloodstream as blood does. Some even have twice the O2 transport capability a

> Which volume is smaller: 50.0 mL or 0.500 L?

> What is the function of unsaturation in the hydrocarbon tails of membrane lipids?

> A newborn is 21 in in length and weighs 6 lb 9 oz. Describe the baby in metric units.

> List the enzymes whose levels are elevated as a result of hepatitis or cirrhosis of the liver.

> If a drop of blood has a volume of 0.05 mL, how many drops of blood are in the adult described in Question 1.99? Question 1.99: A 150 lb adult has approximately 9 pt of blood. How many L of blood does the individual have?

> What are the nine essential amino acids?

> Noble gases in the third period and beyond can undergo covalent bonding. All have an expanded octet. Draw the Lewis structure of XeF2.

> Use the concept of charges to explain why an alpha particle fired toward the nucleus is deflected away from the nucleus.

> How are citric acid cycle intermediates replenished when they are in demand for biosynthesis?

> Convert 7.5 × 10-3 cm to mm.

> What amino acids are synthesized from a-ketoglutarate?

> Use the concept of charges to explain why cathode rays are specifically deflected toward the positive pole by external electric fields and magnetic fields.

> Three ATP are hydrolyzed to provide the energy for the urea cycle.

> How does glucagon affect lipid metabolism?

> Distinguish between an intensive property and an extensive property.

> How does glucagon affect carbohydrate metabolism?

> Triglycerides (Chapters 17 and 23) are used in biochemical systems to store energy; they can be formed from glycerol and fatty acids. The molecular formula of glycerol isC3H8O3. Calculate: a. the formula mass of glycerol b. the number of oxygen atoms in

> Describe what is meant by an extensive property and give an example.

> Where is glucagon produced?

> Why is it important to always include units when recording measurements?

> What are the primary target cells of glucagon?

> Give examples of pure substances and mixtures.

> What are the primary target cells of insulin?

> Express each of the following numbers in standard notation: a. 3.24 × 103 b. 1.50 × 104 c. 4.579 × 10-1 d. -6.83 × 105 e. -8.21 3× 10-2 f. 2.9979× 108 g. 1.50 × 100 h. 6.02 × 1023

> What is the trigger that causes insulin to be secreted into the bloodstream?

> Perform each of the following operations, reporting the answer with the proper number of significant figures: (16.0)(0.1879) а. d. 18 + 52.1 45.3 (76.32)(1.53) b. e. 58.17 – 57.79 0.052 (0.0063)(57.8) с.

> What is the source of the glycerol molecule that is used in the synthesis of triglycerides?

> Sally and Gertrude were comparing their weight-loss regimens. Sally started her diet weighing 193 lb. In 1 year she weighed 145 lb. Gertrude started her diet weighing 80 kg. At the end of the year, she weighed 65 kg. Who lost the most weight? a. Describe

> Round the following numbers to three significant figures: a. 123700 b. 0.00285792 c. 1.421 × 10-3 d. 53.2995 e. 16.96 f. 507.5

> Why can’t the brain use fatty acids as fuel?

> How many significant figures are represented in each of the following numbers? a. 3.8 × 10-3 b. 5.20 × 102 c. 0.00261 d. 24 e. 240 f. 2.40

> How are triglyceride synthesis and degradation regulated in adipose tissue?

> Explain what is meant by each of the following terms: a. error b. uncertainty

> Why is the liver unable to utilize ketone bodies as an energy source?

> Determine the temperature reading of the following thermometer to the correct number of significant figures. | 25.2 | 25.3

> How are the fatty acids synthesized in the liver transported to adipose tissue?

> Rank the following from least to greatest mass. cg, µg, Mg

> Under what conditions does the brain use ketone bodies as a source of energy?

> For each incorrect electron configuration in Question 2.89, assume that the number of electrons is correct, identify the element, and write the correct electron configuration. Question 2.89: Which of the following electron configurations are not possib

> Explain the differences among the three states of matter in terms of volume and shape.

> In what cellular compartments do fatty acid biosynthesis and β -oxidation occur?

> What metric unit for length is similar to the English yd?

> What molecules involved in fatty acid degradation and fatty acid biosynthesis contain the phosphopantetheine group?

> Explain the difference between mass and weight.

> What is the function of NADPH in fatty acid biosynthesis?

> What is the acyl group carrier in fatty acid biosynthesis?

> Write symbols for each isotope: a. Each atom contains one proton and two neutrons. b. Each atom contains 92 protons and 146 neutrons.

> When does the brain use ketone bodies?

> Aspirin (acetylsalicylic acid) may be formed from salicylic acid and acetic acid as follows: a. Is this equation balanced? If not, complete the balancing. b. How many mol of aspirin may be produced from 1.00 × 102 mol salicylic acid? c. H

> Label each of the following as either a homogeneous mixture or a heterogeneous mixture: a. gasoline b. vegetable soup c. concrete d. hot coffee

> How does the presence of ketone bodies in the blood lead to ketoacidosis?

> Label each of the following as either a pure substance or a mixture: a. sucrose (table sugar) b. orange juice c. urine d. tears

> To what class of enzymes does succinate dehydrogenase belong? Explain your answer.

> Label each of the following properties of sodium as either a physical property or a chemical property: a. When exposed to air, sodium forms a white oxide. b. The density of sodium metal at 250C is 0.97 g/cm3.

> What would be the fate of HMG-CoA produced in ketogenesis if it were produced in the cell cytoplasm?

> Label each of the following as either a physical change or a chemical reaction: a. A puddle of water evaporates. b. Food is digested. c. Wood is burned.

> Define ketoacidosis.

> Iodine-131 is an isotope used in thyroid therapy. a. How many protons are found in one atom of iodine-131? b. How many neutrons are found in one atom of iodine-131?

> What are the chemical properties of ketone bodies?

> If we were to remove all of the helium from the mixture described in Question 5.86, what would the partial pressures of N2 and F2 be? Why? What is the new total pressure? Question 5.86: A gas mixture has three components, N2, F2, and He. The partial pr

> Label each of the following as pertaining to either a solid, liquid, or gas. a. It has a fixed volume, but not a fixed shape. b. The attractive forces between particles are very pronounced. c. The particles are far apart.

> How many ATP molecules are produced from each acetyl CoA molecule generated in b-oxidation that enters the citric acid cycle?

> List the differences between chemical changes and physical changes.

> What is the function of oxaloacetate in the citric acid cycle?

2.99

See Answer