Dec 1 : 'mass (m) = weight/g'. Dec 2 : 'mass (m) = 2KE/avg vel**2'. Dec 3 : 'mass (m) = PE/gh'. Dec 4 : 'Not enough information is provided. Please reread the problem and try again. If you need help, please seek advice or assistance.'. Dec 5 : 'weight (W) = mg'. Dec 6 : 'weight (W) = PE/h'. Dec 7 : 'change in distance (delta s) = [final vel**2 - initial vel**2]/2a'. Dec 8 : 'change in distance (delta s) = (initial vel)(delta t) + 0.5a(delta t)**2'. Dec 9 : 'final vel = [(initial vel)**2 + 2a(delta s)]**0.5'. Dec 10 : 'final vel = initial vel + a(delta t)'. Dec 11 : 'initial vel = final vel - a(delta t)'. Dec 12 : 'initial vel = (delta s/delta t) - 0.5a(delta t)'. Dec 13 : 'initial vel = [(final vel)**2 -2a(delta s)]**0.5'. Dec 14 : 'avg vel = (final vel + initial vel)/2'. Dec 15 : 'avg vel = delta s/delta t'. Dec 16 : 'change in time (delta t) = (final vel - initial vel)/a'. Dec 17 : 'change in time (delta t) = (delta s)/avg vel'. Dec 18 : 'change in time (delta t) = (delta s)/a'. Dec 19 : 'acceleration (a) = F/m'. Dec 20 : 'acceleration (a) = (final vel - initial vel)/(delta t)'. Dec 21 : 'acceleration (a) = 2[(delta s)/(delta t)**2 - initial vel/(delta t)]'. Dec 22 : 'acceleration (a) = (final vel**2 - initial vel**2)/2(delta s)'. Dec 23 : 'applied force (F) = ma'. Dec 24 : 'change in time (delta t) = (delta s)/(avg vel)'. Dec 25 : 'change in distance (delta s) = (Avg vel)(delta t)'. Question 1 : 'What quantity would you like to calculate?' Why 'Will determine what relational values in the problem are important' Answers 1 'mass' 2 'weight' 3 'change in distance' 4 'final velocity' 5 'initial velocity' 6 'average velocity' 7 'change in time' 8 'acceleration' 9 'applied force' Question 2 : 'Do you know the MASS of the object?' Why 'Mass will effect weight, acceleration, and energy.' Answers 1 'Yes' 2 'No' 3 'Is not relevant to the problem'. Question 3 : 'Do you know the WEIGHT of the object?' Why 'Weight is a function of mass and gravitational attraction.' Answers 1 'Yes' 2 'No' 3 'Is not relevant to the problem'. Question 4 : 'Do you know the CHANGE IN DISTANCE of the object?' Why 'Change in distance is a function of speed, acceleration, and time.' Answers 1 'Yes' 2 'No' 3 'Is not relevant to the problem'. Question 5 : 'Do you know the FINAL VELOCITY of the object?' Why 'Final velocity is a function of initial speed, time, and acceleration.' Answers 1 'Yes' 2 'No' 3 'Is not relevant to the problem'. Question 6 : 'Do you know the INITIAL VELOCITY of the object?' Why 'Initial velocity defines the speed of the object at an initial time.' Answers 1 'Yes' 2 'No' 3 'Is not relevant to the problem'. Question 7 : 'Do you know the AVERAGE VELOCITY of the object?' Why 'Average velocity is a function of time and distance.' Answers 1 'Yes' 2 'No' 3 'Is not relevant to the problem'. Question 8 : 'Do you know the CHANGE IN TIME of the object?' Why 'Time is an important dimension in physics.' Answers 1 'Yes' 2 'No' 3 'Is not relevant to the problem'. Question 9 : 'Do you know the ACCELERATION of the object?' Why 'Acceleration is a function of speed and time.' Answers 1 'Yes' 2 'No' 3 'Is not relevant to the problem'. Question 10 : 'Do you know the APPLIED FORCE provided to the object?' Why 'An unbalanced applied force will cause a change in acceleration.' Answers 1 'Yes' 2 'No' 3 'Is not relevant to the problem'. Question 11 : 'Do you know the KINETIC ENERGY of the object?' Why 'Kinetic energy is a function of mass and velocity.' Answers 1 'Yes' 2 'No' 3 'Is not relevant to the problem'. Question 12 : 'Do you know the ALTITUDE or height of the object?' Why 'The height or altitude is needed to calculate potential energy.' Answers 1 'Yes' 2 'No' 3 'Is not relevant to the problem'. Question 13 : 'Do you know the POTENTIAL ENERGY of the object?' Why 'Potential energy is a function of weight and referenced altitude.' Answers 1 'Yes' 2 'No' 3 'Is not relevant to the problem'. Question 14 : 'Is the INITIAL VELOCITY equal to zero?' Why 'Often times the initial velocity is zero.' Answers 1 'Yes' 2 'No' 3 'Is not relevant to the problem'. Rule 1 : Why 'Although mass remains constant, its weight will vary with gravitational attraction.' IF Q1A1 AND Q3A1 THEN D1. Rule 2 : Why 'Mass can also be determined by knowing the kinetic or potential energy of object.' IF Q1A1 AND (Q3A2 OR Q3A3) AND Q11A1 AND Q7A1 THEN D2. Rule 3 : Why '' IF Q1A1 AND (Q3A2 OR Q3A3) AND Q11A1 AND (Q7A2 OR Q7A3) THEN D4. Rule 4 : Why '' IF Q1A1 AND (Q3A2 OR Q3A3) AND (Q11A2 or Q11A3) AND (Q13A2 OR Q13A3) THEN D4. Rule 5 : Why '' IF Q1A1 AND (Q3A2 OR Q3A3) AND (Q11A2 or Q11A3) AND (Q13A1 AND Q12A1) THEN D3. Rule 6 : Why '' IF Q1A1 AND (Q3A2 OR Q3A3) AND (Q11A2 or Q11A3) AND Q13A1 AND (Q13A2 OR Q13A3) THEN D4. Rule 7 : Why '' IF Q1A2 AND Q2A1 THEN D5. Rule 8 : Why '' IF Q1A2 AND (Q2A2 OR Q2A3) AND Q13A1 AND Q12A1 THEN D6. Rule 9 : Why '' IF Q1A2 AND (Q2A2 OR Q2A3) AND Q13A1 AND (Q12A2 OR Q12A3) THEN D4. Rule 10 : Why '' IF Q1A2 AND (Q2A2 OR Q2A3) AND (Q13A2 OR Q13A3) THEN D4. Rule 11 : Why '' IF Q1A3 AND Q6A1 AND Q9A1 AND Q5A1 THEN D7. Rule 12 : Why '' IF Q1A3 AND (Q6A2 OR Q6A3) AND (Q7A2 OR Q7A3) THEN D4. Rule 13 : Why '' IF Q1A3 AND (Q6A2 OR Q6A3) AND Q7A1 AND (Q8A2 OR Q8A3) THEN D4. Rule 14 : Why '' IF Q1A3 AND (Q6A2 OR Q6A3) AND Q7A1 AND Q8A1 THEN D25. Rule 15 : Why '' IF Q1A3 AND Q6A1 AND (Q9A2 OR Q9A3) THEN D4. Rule 16 : Why '' IF Q1A3 AND Q6A1 AND Q9A1 AND (Q5A2 OR Q5A3) AND Q8A1 THEN D8. Rule 17 : Why '' IF Q1A3 AND Q6A1 AND Q9A1 AND (Q5A2 OR Q5A3) AND (Q8A2 OR Q8A3) THEN D4. Rule 18 : Why '' IF Q1A4 AND (Q6A2 OR Q6A3) THEN D4. Rule 19 : Why '' IF Q1A4 AND Q6A1 AND (Q9A2 OR Q9A3) THEN D4. Rule 20 : Why '' IF Q1A4 AND Q6A1 AND Q9A1 AND (Q4A2 OR Q4A3) AND (Q8A2 OR Q8A3) THEN D4. Rule 21 : Why '' IF Q1A4 AND Q6A1 AND Q9A1 AND (Q4A2 OR Q4A3) AND Q8A1 THEN D10. Rule 22 : Why '' IF Q1A4 AND Q6A1 AND Q9A1 AND Q4A1 THEN D9. Rule 23 : Why '' IF Q1A5 AND (Q9A2 OR Q9A3) THEN D4. Rule 24 : Why '' IF Q1A5 AND Q9A1 AND (Q8A2 OR Q8A3) AND (Q4A2 OR Q5A3) THEN D4. Rule 25 : Why '' IF Q1A5 AND Q9A1 AND Q8A1 AND (Q5A2 OR Q5A3) AND (Q4A2 OR Q4A3) THEN D4. Rule 26 : Why '' IF Q1A5 AND Q9A1 AND Q8A1 AND Q5A1 THEN D11. Rule 27 : Why '' IF Q1A5 AND Q9A1 AND Q8A1 AND (Q5A2 OR Q5A3) AND Q4A1 AND (Q5A2 OR Q5A3) THEN D12. Rule 28 : Why '' IF Q1A5 AND Q9A1 AND Q8A1 AND Q5A1 AND (Q5A2 OR Q5A3) AND Q4A1 AND Q5A1 THEN D13. Rule 29 : Why '' IF Q1A6 AND (Q6A2 OR Q6A3) AND (Q4A2 OR Q4A3) THEN D4. Rule 30 : Why '' IF Q1A6 AND (Q6A2 OR Q6A3) AND Q4A1 AND (Q8A2 OR Q8A3) THEN D4. Rule 31 : Why '' IF Q1A6 AND Q6A1 AND Q5A1 THEN D14. Rule 32 : Why '' IF Q1A6 AND (Q6A2 OR Q6A3) AND Q4A1 AND Q8A1 THEN D15. Rule 33 : Why '' IF Q1A7 AND (Q9A2 OR Q9A3) AND (Q7A2 OR Q7A3) THEN D4. Rule 34 : Why '' IF Q1A7 AND (Q9A2 OR Q9A3) AND Q7A1 AND (Q4A2 OR Q4A3) THEN D4. Rule 35 : Why '' IF Q1A7 AND Q9A1 AND (Q6A2 OR Q6A3) AND (Q4A2 OR Q4A3) THEN D4. Rule 36 : Why '' IF Q1A7 AND (Q9A2 OR Q9A3) AND Q7A1 AND Q4A1 THEN D24. Rule 37 : Why '' IF Q1A7 AND Q9A1 AND (Q6A2 OR Q6A3) AND Q4A1 THEN D17. Rule 38 : Why '' IF D17 AND Q14A1 THEN D18. Rule 39 : Why '' IF D17 AND Q14A2 THEN D24. Rule 40 : Why '' IF Q1A7 AND Q9A1 AND Q6A1 AND Q5A1 THEN D16. Rule 41 : Why '' IF Q1A8 AND (Q6A2 OR Q6A3) AND (Q10A2 OR Q10A3) THEN D4. Rule 42 : Why '' IF Q1A8 AND (Q6A2 OR Q6A3) AND Q10A1 AND Q2A1 THEN D19. Rule 43 : Why '' IF Q1A8 AND (Q6A2 OR Q6A3) AND Q10A1 AND (Q2A2 OR Q2A3) THEN D4. Rule 44 : Why '' IF Q1A8 AND Q6A1 AND Q8A1 AND Q5A1 THEN D20. Rule 45 : Why '' IF Q1A8 AND Q6A1 AND (Q8A2 OR Q8A3) AND (Q4A2 OR Q4A3) THEN D4. Rule 46 : Why '' IF Q1A8 AND Q6A1 AND (Q8A2 OR Q8A3) AND Q4A1 AND (Q5A2 OR Q5A3) THEN D21. Rule 47 : Why '' IF Q1A8 AND Q6A1 AND Q8A1 AND (Q5A2 OR Q5A3) AND Q4A1 AND (Q5A2 OR Q5A3) THEN D21. Rule 48 : Why '' IF Q1A8 AND Q6A1 AND (Q8A2 OR Q8A3) AND Q4A1 AND Q5A1 THEN D22. Rule 49 : Why '' IF Q1A8 AND Q6A1 AND Q8A1 AND (Q5A2 OR Q5A3) AND (Q4A2 OR Q4A3) THEN D4. Rule 50 : Why '' IF Q1A9 AND (Q2A2 OR Q2A3) THEN D4. Rule 51 : Why '' IF Q1A9 AND Q2A1 AND (Q9A2 OR Q9A3) THEN D4. Rule 52 : Why '' IF Q1A9 AND Q2A1 AND Q9A1 THEN D23.