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Emergency Crisis Decisions: Worksheet 6 - Intermediate-Advanced Practice Emergency Crisis Decisions INTERMEDIATE ADVANCED

Ready to master Emergency Crisis Decisions? This timed practice ⚡ worksheet (6/10) presents 20 intermediate-advanced-level challenges. Focus area: speed building. Learn to solve emergency crisis decisions tricks, handle emergency crisis decisions shortcut methods, and perfect emergency crisis decisions bank exam questions with our step-by-step solutions.

📝 Worksheet 6 of 10 • 20 questions • ⏱️ Estimated time: 20 minutes • 🎯 Intermediate Advanced level

What you'll learn in this worksheet:
Your progress through Emergency Crisis Decisions
Worksheet 6 of 10 (55% complete)

Question 1

Situation: Emergency room with one ventilator left. Four patients need it: 20-year-old (90% survival), 40-year-old (70% survival), 60-year-old (50% survival), 80-year-old (30% survival). What is the best decision in this emergency situation?
Utilitarian approach - maximizing total life years saved. Youngest patient has highest potential remaining lifespan and good survival probability.

Question 2

Situation: You're the captain of a ship that hits an iceberg. You have 30 minutes before sinking. 100 passengers, lifeboats capacity 80. What is the best decision in this emergency situation?
In maritime emergencies, traditional protocol prioritizes vulnerable populations. This maintains order, maximizes survival of those with least chance of self-rescue.

Question 3

Situation: You're the captain of a ship that hits an iceberg. You have 30 minutes before sinking. 100 passengers, lifeboats capacity 80. What is the best decision in this emergency situation?
In maritime emergencies, traditional protocol prioritizes vulnerable populations. This maintains order, maximizes survival of those with least chance of self-rescue.

Question 4

Situation: You're the captain of a ship that hits an iceberg. You have 30 minutes before sinking. 100 passengers, lifeboats capacity 80. What is the best decision in this emergency situation?
In maritime emergencies, traditional protocol prioritizes vulnerable populations. This maintains order, maximizes survival of those with least chance of self-rescue.

Question 5

Situation: Factory fire with 50 workers inside. You can either: try to extinguish fire (30% success, 10 minutes, saves all) or evacuate (100% success, 5 minutes, saves 40 workers). What is the best decision in this emergency situation?
Expected value: Extinguish = 50×0.3 = 15 expected saved; Evacuate = 40 guaranteed saved. Guarantee of 40 saved is better than 15 expected.

Question 6

Situation: Emergency room with one ventilator left. Four patients need it: 20-year-old (90% survival), 40-year-old (70% survival), 60-year-old (50% survival), 80-year-old (30% survival). What is the best decision in this emergency situation?
Utilitarian approach - maximizing total life years saved. Youngest patient has highest potential remaining lifespan and good survival probability.

Question 7

Situation: Factory fire with 50 workers inside. You can either: try to extinguish fire (30% success, 10 minutes, saves all) or evacuate (100% success, 5 minutes, saves 40 workers). What is the best decision in this emergency situation?
Expected value: Extinguish = 50×0.3 = 15 expected saved; Evacuate = 40 guaranteed saved. Guarantee of 40 saved is better than 15 expected.

Question 8

Situation: You're the captain of a ship that hits an iceberg. You have 30 minutes before sinking. 100 passengers, lifeboats capacity 80. What is the best decision in this emergency situation?
In maritime emergencies, traditional protocol prioritizes vulnerable populations. This maintains order, maximizes survival of those with least chance of self-rescue.

Question 9

Situation: Factory fire with 50 workers inside. You can either: try to extinguish fire (30% success, 10 minutes, saves all) or evacuate (100% success, 5 minutes, saves 40 workers). What is the best decision in this emergency situation?
Expected value: Extinguish = 50×0.3 = 15 expected saved; Evacuate = 40 guaranteed saved. Guarantee of 40 saved is better than 15 expected.

Question 10

Situation: Factory fire with 50 workers inside. You can either: try to extinguish fire (30% success, 10 minutes, saves all) or evacuate (100% success, 5 minutes, saves 40 workers). What is the best decision in this emergency situation?
Expected value: Extinguish = 50×0.3 = 15 expected saved; Evacuate = 40 guaranteed saved. Guarantee of 40 saved is better than 15 expected.

Question 11

Situation: During a riot, you must decide whether to deploy tear gas on a crowd of 500 protesters (risk of injury to 50, but stop violence) or let them protest (risk of 100 injuries from violence). What is the best decision in this emergency situation?
Risk assessment: 50 injuries from tear gas vs 100 injuries from violence. Immediate deployment minimizes total harm despite short-term side effects.

Question 12

Situation: You're the captain of a ship that hits an iceberg. You have 30 minutes before sinking. 100 passengers, lifeboats capacity 80. What is the best decision in this emergency situation?
In maritime emergencies, traditional protocol prioritizes vulnerable populations. This maintains order, maximizes survival of those with least chance of self-rescue.

Question 13

Situation: Emergency room with one ventilator left. Four patients need it: 20-year-old (90% survival), 40-year-old (70% survival), 60-year-old (50% survival), 80-year-old (30% survival). What is the best decision in this emergency situation?
Utilitarian approach - maximizing total life years saved. Youngest patient has highest potential remaining lifespan and good survival probability.

Question 14

Situation: During a riot, you must decide whether to deploy tear gas on a crowd of 500 protesters (risk of injury to 50, but stop violence) or let them protest (risk of 100 injuries from violence). What is the best decision in this emergency situation?
Risk assessment: 50 injuries from tear gas vs 100 injuries from violence. Immediate deployment minimizes total harm despite short-term side effects.

Question 15

Situation: Factory fire with 50 workers inside. You can either: try to extinguish fire (30% success, 10 minutes, saves all) or evacuate (100% success, 5 minutes, saves 40 workers). What is the best decision in this emergency situation?
Expected value: Extinguish = 50×0.3 = 15 expected saved; Evacuate = 40 guaranteed saved. Guarantee of 40 saved is better than 15 expected.

Question 16

Situation: Factory fire with 50 workers inside. You can either: try to extinguish fire (30% success, 10 minutes, saves all) or evacuate (100% success, 5 minutes, saves 40 workers). What is the best decision in this emergency situation?
Expected value: Extinguish = 50×0.3 = 15 expected saved; Evacuate = 40 guaranteed saved. Guarantee of 40 saved is better than 15 expected.

Question 17

Situation: You're the captain of a ship that hits an iceberg. You have 30 minutes before sinking. 100 passengers, lifeboats capacity 80. What is the best decision in this emergency situation?
In maritime emergencies, traditional protocol prioritizes vulnerable populations. This maintains order, maximizes survival of those with least chance of self-rescue.

Question 18

Situation: During a riot, you must decide whether to deploy tear gas on a crowd of 500 protesters (risk of injury to 50, but stop violence) or let them protest (risk of 100 injuries from violence). What is the best decision in this emergency situation?
Risk assessment: 50 injuries from tear gas vs 100 injuries from violence. Immediate deployment minimizes total harm despite short-term side effects.

Question 19

Situation: You're the captain of a ship that hits an iceberg. You have 30 minutes before sinking. 100 passengers, lifeboats capacity 80. What is the best decision in this emergency situation?
In maritime emergencies, traditional protocol prioritizes vulnerable populations. This maintains order, maximizes survival of those with least chance of self-rescue.

Question 20

Situation: Emergency room with one ventilator left. Four patients need it: 20-year-old (90% survival), 40-year-old (70% survival), 60-year-old (50% survival), 80-year-old (30% survival). What is the best decision in this emergency situation?
Utilitarian approach - maximizing total life years saved. Youngest patient has highest potential remaining lifespan and good survival probability.
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