Chapter 9 B Cellular Respiration Topic 1 Topic
Chapter 9 B – Cellular Respiration Topic 1 Topic 2 Topic 3 Topic 4 Topic 5 $100 $100 $200 $200 $300 $300 $400 $400 $500 $500 FINAL ROUND
Topic 1: $100 Question: All of the following are sources of energy during exercise EXCEPT a. stored ATP b. lactic acid fermentation c. alcoholic fermentation d. cellular respiration ANSWER BACK TO GAME
Topic 1: $100 Answer Question: All of the following are sources of energy during exercise EXCEPT a. stored ATP b. lactic acid fermentation c. alcoholic fermentation d. cellular respiration BACK TO GAME
Topic 1: $200 Question: Which process does NOT release energy from glucose? a. glycolysis b. fermentation c. cellular respiration d. photosynthesis ANSWER BACK TO GAME
Topic 1: $200 Answer Question: Which process does NOT release energy from glucose? a. glycolysis b. fermentation c. cellular respiration d. photosynthesis BACK TO GAME
Topic 1: $300 Question: How are cellular respiration and photosynthesis almost opposite processes? a. Photosynthesis releases energy, and cellular respiration stores energy. b. Photosynthesis removes carbon dioxide from the atmosphere, and cellular respiration puts it back. c. Photosynthesis removes oxygen from the atmosphere, and cellular respiration puts it back. d. All of the above ANSWER BACK TO GAME
Topic 1: $300 Answer Question: How are cellular respiration and photosynthesis almost opposite processes? a. Photosynthesis releases energy, and cellular respiration stores energy. b. Photosynthesis removes carbon dioxide from the atmosphere, and cellular respiration puts it back. c. Photosynthesis removes oxygen from the atmosphere, and cellular respiration puts it back. d. All of the above BACK TO GAME
Topic 1: $400 Question: Which of the following acts as an electron carrier in cellular respiration? a. NAD+ b. ADP c. ATP d. pyruvic acid ANSWER BACK TO GAME
Topic 1: $400 Answer Question: Which of the following acts as an electron carrier in cellular respiration? a. NAD+ b. ADP c. ATP d. pyruvic acid BACK TO GAME
Topic 1: $500 Question: Lactic acid fermentation occurs in a. bread dough. b. any environment containing oxygen. c. muscle cells. d. mitochondria. ANSWER BACK TO GAME
Topic 1: $500 Answer Question: Lactic acid fermentation occurs in a. bread dough. b. any environment containing oxygen. c. muscle cells d. mitochondria BACK TO GAME
Topic 2: $100 Question: The two main types of fermentation are called a. alcoholic and aerobic. b. lactic acid anaerobic. c. aerobic and anaerobic. d. lactic acid and alcoholic. ANSWER BACK TO GAME
Topic 2: $100 Answer Question: The two main types of fermentation are called a. alcoholic and aerobic. b. lactic acid anaerobic. c. aerobic and anaerobic. d. lactic acid and alcoholic BACK TO GAME
Topic 2: $200 Question: One cause of muscle soreness is a. alcoholic fermentation. b. glycolysis. c. Krebs cycle. d. lactic acid fermentation. ANSWER BACK TO GAME
Topic 2: $200 Answer Question: One cause of muscle soreness is a. alcoholic fermentation. b. glycolysis. c. Krebs cycle. d. lactic acid fermentation. BACK TO GAME
Topic 2: $300 Question: The air bubbles and spongy texture of bread are due to which process? a. glycolysis. b. the Krebs cycle. c. alcoholic fermentation. d. lactic acid fermentation. ANSWER BACK TO GAME
Topic 2: $300 Answer Question: The air bubbles and spongy texture of bread are due to which process? a. glycolysis. b. the Krebs cycle. c. alcoholic fermentation. d. lactic acid fermentation. BACK TO GAME
Topic 2: $400 Question: Milk is converted to yogurt under certain conditions when the microorganisms in the milk produce acid. Which of these processes would you expect to be key in the production of yogurt? a. the Krebs cycle b. lactic acid fermentation c. alcoholic fermentation d. glycolysis ANSWER BACK TO GAME
Topic 2: $400 Answer Question: Milk is converted to yogurt under certain conditions when the microorganisms in the milk produce acid. Which of these processes would you expect to be key in the production of yogurt? a. the Krebs cycle b. lactic acid fermentation c. alcoholic fermentation d. glycolysis BACK TO GAME
Topic 2: $500 Question: During lactic acid fermentation, a. 3 ATP molecules are produced. b. oxygen is required. c. NAD+ is regenerated, allowing glycolysis to continue. d. Glucose is split into three pyruvic molecules. ANSWER BACK TO GAME
Topic 2: $500 Answer Question: During lactic acid fermentation, a. 3 ATP molecules are produced. b. oxygen is required. c. NAD+ is regenerated, allowing glycolysis to continue. d. Glucose is split into three pyruvic molecules. BACK TO GAME
Topic 3: $100 Question: The conversion of pyruvic acid into lactic acid requires a. alcohol. b. oxygen. c. ATP. d. NADH. ANSWER BACK TO GAME
Topic 3: $100 Answer Question: The conversion of pyruvic acid into lactic acid requires a. alcohol. b. oxygen. c. ATP. d. NADH. BACK TO GAME
Topic 3: $200 Question: In the presence of oxygen, glycolysis is followed by a. lactic acid fermentation. b. alcoholic fermentation. c. photosynthesis. d. the Krebs cycle. ANSWER BACK TO GAME
Topic 3: $200 Answer Question: In the presence of oxygen, glycolysis is followed by a. lactic acid fermentation. b. alcoholic fermentation. c. photosynthesis. d. the Krebs cycle BACK TO GAME
Topic 3: $300 Question: Which organism is NOT likely to carry out cellular respiration? a. tiger b. tree c. anaerobic bacterium d. mushroom ANSWER BACK TO GAME
Topic 3: $300 Answer Question: Which organism is NOT likely to carry out cellular respiration? a. tiger b. tree c. anaerobic bacterium d. mushroom BACK TO GAME
Topic 3: $400 Question: The Krebs cycle does not occur if a. fermentation occurs. b. carbon dioxide is present. c. oxygen is present. d. glycolysis occurs. ANSWER BACK TO GAME
Topic 3: $400 Answer Question: The Krebs cycle does not occur if a. fermentation occurs. b. carbon dioxide is present. c. oxygen is present. d. glycolysis occurs. BACK TO GAME
Topic 3: $500 Question: The Krebs cycle produces a. electron carriers. b. glucose. c. lactic acid. d. oxygen. ANSWER BACK TO GAME
Topic 3: $500 Answer Question: The Krebs cycle produces a. electron carriers. b. glucose. c. lactic acid. d. oxygen. BACK TO GAME
Topic 4: $100 Question: The Krebs cycle starts with a. Lactic acid and yields carbon dioxide. b. Glucose and yields 32 ATPs. c. Pyruvic acid and yields carbon dioxide. d. Pyruvic acid and yields lactic acid or alcohol. ANSWER BACK TO GAME
Topic 4: $100 Answer Question: The Krebs cycle starts with a. Lactic acid and yields carbon dioxide. b. Glucose and yields 32 ATPs. c. Pyruvic acid and yields carbon dioxide. d. Pyruvic acid and yields lactic acid or alcohol. BACK TO GAME
Topic 4: $200 Question: What raw materials are needed for cellular respiration? a. glucose and carbon dioxide b. glucose and oxygen c. carbon dioxide and oxygen d. carbon dioxide and water ANSWER BACK TO GAME
Topic 4: $200 Answer Question: What raw materials are needed for cellular respiration? a. glucose and carbon dioxide b. glucose and oxygen c. carbon dioxide and oxygen d. carbon dioxide and water BACK TO GAME
Topic 4: $300 Question: Which substance is needed to begin the process of glycolysis? a. ATP b. NADP c. pyruvic acid d. NADH ANSWER BACK TO GAME
Topic 4: $300 Answer Question: Which substance is needed to begin the process of glycolysis? a. ATP b. NADP c. pyruvic acid d. NADH BACK TO GAME
Topic 4: $400 Question: In eukaryotic cells, most of cellular respiration takes place in the a. nuclei b. cytoplasm c. mitochondria d. cell walls ANSWER BACK TO GAME
Topic 4: $400 Answer Question: In eukaryotic cells, most of cellular respiration takes place in the a. nuclei b. cytoplasm c. mitochondria d. cell walls BACK TO GAME
Topic 4: $500 Question: The human body can use all of the following as energy sources EXCEPT a. ATP in muscles b. cellular respiration c. alcoholic fermentation d. glycolysis ANSWER BACK TO GAME
Topic 4: $500 Answer Question: The human body can use all of the following as energy sources EXCEPT a. ATP in muscles b. cellular respiration c. alcoholic fermentation d. glycolysis BACK TO GAME
Topic 5: $100 Question: What substance produced by alcoholic fermentation makes bread dough rise? a. carbon dioxide b. yeast c. oxygen d. glucose ANSWER BACK TO GAME
Topic 5: $100 Answer Question: What substance produced by alcoholic fermentation makes bread dough rise? a. carbon dioxide b. yeast c. oxygen d. glucose BACK TO GAME
Topic 5: $200 Question: Which of the following best represents the waste products of cellular respiration? a. CO 2 and O 2 b. CO 2 and H 2 O c. O 2 d. CO 2 ANSWER BACK TO GAME
Topic 5: $200 Answer Question: Which of the following best represents the waste products of cellular respiration? a. CO 2 and O 2 b. CO 2 and H 2 O c. O 2 d. CO 2 BACK TO GAME
Topic 5: $300 Question: What is the relationship between the rate of fermentation and temperature? 90 Rate of Fermentation 70 Versus 60 Temperature 50 a. The rate of fermentation continually increases as temperature increases. b. The rate of fermentation continually decreases as temperature increases. Rate of Fermentation 80 40 30 20 10 0 0 10 20 30 Temperature (°C) 40 c. The rate of fermentation decreases with temperature, then it increases. d. The rate of fermentation increases with temperature, then ANSWER it rapidly decreases. BACK TO GAME
Topic 5: $300 Answer Question: What is the relationship between the rate of fermentation and temperature? 90 Rate of Fermentation 70 Versus 60 Temperature 50 a. The rate of fermentation continually increases as temperature increases. b. The rate of fermentation continually decreases as temperature increases. Rate of Fermentation 80 40 30 20 10 0 0 10 20 30 Temperature (°C) 40 c. The rate of fermentation decreases with temperature, then it increases. d. The rate of fermentation increases with temperature, then it rapidly decreases. BACK TO GAME
Topic 5: $400 Question: Which statement could explain the data shown in the graph? 90 Rate of Fermentation 70 Versus 60 Temperature 50 a. The yeast cannot survive at temperatures above 30°C. b. The molecules that regulate fermentation perform optimally at temperatures above 30°C. Rate of Fermentation 80 40 30 20 10 0 0 10 20 30 Temperature (°C) 40 c. The yeast begins releasing carbon dioxide at 30°C. d. The yeast cannot survive at temperatures below 30°C. ANSWER BACK TO GAME
Topic 5: $400 Answer Question: Which statement could explain the data shown in the graph? b. The molecules that regulate fermentation perform optimally at temperatures above 30°C. Rate of Fermentation 70 Versus 60 Temperature 50 80 Rate of Fermentation a. The yeast cannot survive at temperatures above 30°C. 90 40 30 20 10 0 0 10 20 30 Temperature (°C) 40 c. The yeast begins releasing carbon dioxide at 30°C. d. The yeast cannot survive at temperatures below 30°C. BACK TO GAME
Topic 5: $500 Question: a. Choice 1 b. Choice 2 c. Choice 3 d. Choice 4 ANSWER BACK TO GAME
Topic 5: $500 Answer Question: a. Choice 1 b. Choice 2 c. Choice 3 (correct answer) d. Choice 4 BACK TO GAME
FINAL ROUND Question: a. Choice 1 b. Choice 2 c. Choice 3 d. Choice 4 ANSWER BACK TO GAME
FINAL ROUND Answer Question: a. Choice 1 b. Choice 2 c. Choice 3 (correct answer) d. Choice 4 BACK TO GAME
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