Let's work through Motion — Complete Guide with Examples together. Physics problems become simple when you break them into clear, logical steps. Here's exactly how to approach this one.
See the step-by-step solution above for the complete answer.
Step 1: Use: distance = velocity × time
Step 2: d = 5 × 2 = 10 m
Step 3: Use: distance = velocity × time
Step 4: d = 5 × 2 = 10 m
Step 5: Use: distance = velocity × time
Step 6: d = 10 × 4 = 40 m
Step 7: Use: distance = velocity × time
Step 8: d = 15 × 6 = 90 m
Step 9: Use: distance = velocity × time
Step 10: d = 20 × 8 = 160 m
Step 11: Use: distance = velocity × time
Step 12: d = 25 × 10 = 250 m
Step 13: Use: distance = velocity × time
Step 14: d = 30 × 12 = 360 m
Step 15: Use: distance = velocity × time
Step 16: d = 35 × 14 = 490 m
Step 17: Use: distance = velocity × time
Step 18: d = 40 × 16 = 640 m
Step 19: Use: distance = velocity × time
Step 20: d = 45 × 18 = 810 m
Step 21: Use: distance = velocity × time
Step 22: d = 50 × 20 = 1000 m
Step 23: Use: distance = velocity × time
Step 24: d = 55 × 2 = 110 m
Step 25: Use: distance = velocity × time
Step 26: d = 60 × 4 = 240 m
Step 27: Use: distance = velocity × time
Step 28: d = 65 × 6 = 390 m
Step 29: Use: distance = velocity × time
Step 30: d = 70 × 8 = 560 m
Step 31: Use: distance = velocity × time
Step 32: d = 75 × 10 = 750 m
Step 33: Use: distance = velocity × time
Step 34: d = 80 × 12 = 960 m
Step 35: Use: distance = velocity × time
Step 36: d = 85 × 14 = 1190 m
Step 37: Use: distance = velocity × time
Step 38: d = 90 × 16 = 1440 m
Step 39: Use: distance = velocity × time
Step 40: d = 95 × 18 = 1710 m
Step 41: Use: distance = velocity × time
Step 42: d = 100 × 20 = 2000 m
This problem applies motion. Understanding the underlying principle lets you solve similar problems with different values confidently.
❌ Mistake 1: Using the wrong units or forgetting to convert.
❌ Mistake 2: Applying the wrong formula for the given situation.
❌ Mistake 3: Rounding too early in the calculation.
See the step-by-step solution above for the complete answer.
This problem applies motion. Understanding the underlying principle lets you solve similar problems with different values confidently.