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Century Code / Composite Clock Puzzles (Combined Patterns)

Introduction

Century-code और composite clock puzzles कई clock concepts (angles, relative motion, faulty clocks, mirror/water images, swaps) को एक ही प्रश्न में मिलाते हैं। ये multi-step problems आपको एक जटिल परिदृश्य को छोटे clock-pattern tasks में decompose करके क्रमवार हल करना सिखाती हैं।

Pattern: Century Code / Composite Clock Puzzles (Combined Patterns)

Pattern

Composite puzzle को स्वतंत्र clock sub-problems (angle/position, gain/loss, mirror-image, swap आदि) में तोड़ें, हर एक को standard formula या proportional method से हल करें, और फिर समस्या के निर्देशों के अनुसार परिणामों को combine करें।
Workflow: Decompose → Solve sub-problems (use standard clock formulas) → Recombine answers logically.

सामान्य निर्माण-खंड और उपयोग किए जाने वाले फ़ॉर्मूले:

  • H:M पर hands के बीच angle: θ = |30H - (11/2)M| (छोटी زاوية के लिए 0-180° का उपयोग करें)।
  • Relative angle change Δ के लिए समय: Time (min) = (2/11) × Δ.
  • Coincidence/opposition intervals: coincidence हर 720/11 ≈ 65 5/11 मिनट पर; opposite identical भी 720/11 पर repeat करता है; 180° relative shift में 360/11 ≈ 32 8/11 मिनट लगते हैं।
  • Mirror image (vertical): 11:60 - time. Water image (horizontal): 18:30 - time (normalize करके 12-hour format में दें)।
  • Faulty clock interpolation: Time to correct = (Initial error ÷ Total change) × Total interval.
  • Swap problems: सेट करें hour(T₂) = minute(T₁) और minute(T₂) = hour(T₁); linear system हल करें (adjacent-hour swaps में अक्सर denominator 143 आता है)।

Step-by-Step Example

Question

वास्तविक समय 3:20 p.m. पर, Clock B (सही clock) 3:20 दिखा रही है। इस reading का water-image क्या है?

Solution

  1. Step 1: Water-image rule लागू करें

    Water-image time = 18:30 - actual time

  2. Step 2: दिया हुआ time minutes में बदलें और subtract करें

    3:20 → 3×60 + 20 = 200 minutes.
    18:30 → 1,110 minutes.
    भिन्न = 1,110 - 200 = 910 minutes

  3. Step 3: 910 minutes को 12-hour format में बदलें

    Normalize करने के लिए 720 घटाएँ: 910 - 720 = 190 minutes.
    190 minutes = 3 hours 10 minutes → 3:10

  4. Final Answer:

    3:10

  5. Quick Check:

    18:30 - 3:20 = 15:10 → normalize → 3:10

Quick Variations

1. Faulty-clock + angle प्रश्न: एक faulty clock कब कोई specific angle दिखाएगी और उसे वास्तविक समय में कैसे बदलें।

2. Swap + mirror: पहले adjacent hours के बीच swap निकालें और फिर swapped time को mirror करें।

3. Multi-clock composite: तब देखें जब दो faulty clocks के बीच difference किसी तीसरे clock पर specific angular configuration के बराबर हो।

Trick to Always Use

  • Step 1 → समस्या को स्पष्ट रूप से नामित sub-tasks में तोड़ें (उदा., A: interpolation, B: angle compute, C: mirror conversion)।
  • Step 2 → हर sub-task को exact fractions में हल करें (जल्दी decimals का उपयोग न करें)।
  • Step 3 → परिणामों को सावधानी से फिर से जोड़ें और हर चरण पर units (minutes vs hours) चेक करें।

Summary

Summary

  • Composite puzzles को छोटे clock pattern tasks में विभाजित करें और हर sub-problem को label करें।
  • हर sub-problem को standard फ़ॉर्मूला (angle, relative time, gain/loss interpolation, mirror/water rules, swap equations) से हल करें।
  • गणना में exact fractions रखें और अंतिम रूप में times को requested 12-hour format में normalize करें।
  • हर recombined result का inverse या sanity check करके quick-verify करें।

याद रखने के लिए उदाहरण:
Decompose → Solve exact → Normalize → Quick-check

Practice

(1/5)
1. A faulty clock is 5 minutes slow at 6:00 a.m. and 7 minutes fast at 6:00 p.m. On the same day, when the real time is 12 noon, what time does the faulty clock show?
easy
A. 12:00
B. 12:10
C. 12:01
D. 11:55

Solution

  1. Step 1: Define the rates

    Initial error at 6:00 a.m. = -5 min (slow). Error at 6:00 p.m. = +7 min (fast). Total change in error = 7 - (-5) = 12 minutes over 12 hours → rate = 1 min/hr.

  2. Step 2: Compute change by noon

    From 6:00 a.m. to 12:00 noon = 6 hours → change = 6 × 1 = 6 minutes.

  3. Step 3: Find clock reading at noon

    Clock started -5 min and gained 6 min → net = -5 + 6 = +1 minute (fast). So when real time = 12:00, faulty clock shows 12:01.

  4. Final Answer:

    12:01 → Option C

  5. Quick Check:

    Rate 1 min/hr × 6 hr = 6 min; -5 + 6 = +1 → clock ahead by 1 min at noon ✅
Hint: Find per-hour error change = (final - initial)/hours; multiply by elapsed hours from the known start.
Common Mistakes: Forgetting the initial offset (the 'slow' value) when computing the current reading.
2. At what time between 3 and 4 o’clock will the hour and minute hands form the supplement of the angle formed at 2:20?
easy
A. 3:27 3/11
B. 3:40
C. 3:32 8/11
D. 3:41 49/143

Solution

  1. Step 1: Compute the angle at 2:20

    Hour angle = 30×2 + 0.5×20 = 60 + 10 = 70°. Minute angle = 6×20 = 120°. Angle = |120 - 70| = 50°.

  2. Step 2: Find the supplement

    Supplement = 180 - 50 = 130°.

  3. Step 3: Solve for time 3:m where |30×3 - 11/2×m| = 130

    |90 - 5.5m| = 130 → 5.5m - 90 = 130 → 5.5m = 220 → m = 40 → time = 3:40.

  4. Final Answer:

    3:40 → Option B

  5. Quick Check:

    At 3:40 → hour = 90 + 0.5×40 = 110°; minute = 6×40 = 240°; difference = 130° ✅
Hint: Supplement = 180° - known angle; then use |30H - 11M/2| formula to solve.
Common Mistakes: Failing to test both signs of the absolute-value equation or mis-evaluating the supplement.
3. A correct clock shows 7:30. What is its water-image (horizontal reflection) time?
easy
A. 11:00
B. 4:45
C. 4:30
D. 11:30

Solution

  1. Step 1: Recall the water-image rule

    Water (horizontal) image = 18:30 - (given time).

  2. Step 2: Subtract

    18:30 - 7:30 = 11:00 → in 12-hour format this is 11:00.

  3. Final Answer:

    11:00 → Option A

  4. Quick Check:

    18:30 (i.e., 1110 minutes) - (7:30 = 450 minutes) = 660 minutes → 11:00 ✅
Hint: Use 18:30 - time for water-image; use 11:60 - time for vertical mirror.
Common Mistakes: Mixing up mirror (11:60) and water (18:30) formulas.
4. A clock loses 8 minutes in 24 hours. It is set right at 8:00 a.m. on Monday. When it shows 8:00 a.m. on Wednesday (i.e., the clock's display reads 48 hours later), what is the real time?
medium
A. 8:16 a.m.
B. 8:08 a.m.
C. 7:44 a.m.
D. 8:24 a.m.

Solution

  1. Step 1: Express shown-time as a fraction of real-time

    A loss of 8 minutes in 24 hours means the clock shows 1432 minutes when real time is 1440 minutes. Thus, shown_time = real_time × (1432/1440) = real_time × (179/180).

  2. Step 2: Compute real time for a shown time of 48 hours

    real_time = shown_time × (180/179) = 48 × (180/179) ≈ 48.268 hours.

  3. Step 3: Convert fractional hours

    0.268 × 60 ≈ 16 minutes. So total real elapsed time ≈ 48 hours 16 minutes.

  4. Step 4: Add to start time

    Monday 8:00 a.m. + 48 hours 16 minutes = Wednesday 8:16 a.m..

  5. Final Answer:

    8:16 a.m. → Option A

  6. Quick Check:

    Multiplying 48.268 hr by 179/180 gives almost exactly 48 hr of shown time, matching the clock display.
Hint: Use shown_time = real_time × (179/180); invert the fraction to compute real time.
Common Mistakes: Treating the loss as a one-time subtraction instead of a continuous rate.
5. Find the reflex angle (the larger angle) between the hour and minute hands at 7:25.
medium
A. 197.5°
B. 162.5°
C. 212.5°
D. 287.5°

Solution

  1. Step 1: Compute hour and minute angles

    Hour angle = 30×7 + 0.5×25 = 210 + 12.5 = 222.5°. Minute angle = 6×25 = 150°.

  2. Step 2: Compute the smaller angle Δ

    Δ = |222.5 - 150| = 72.5°.

  3. Step 3: Compute reflex angle

    Reflex = 360 - Δ = 360 - 72.5 = 287.5°.

  4. Final Answer:

    287.5° → Option D

  5. Quick Check:

    Smaller = 72.5°, reflex = 360 - 72.5 = 287.5° ✅
Hint: Compute smaller angle first using |30H - 11M/2|, then subtract from 360 for reflex.
Common Mistakes: Confusing the smaller and reflex angles or forgetting to take absolute value.

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