You must have come across questions which you thought tested one concept but later found out could be easily dealt with using another concept. Often, crafty little mixture problems belong to this category. For example:
Mark is playing poker at a casino. Mark starts playing with 140 chips, 20% of which are €100 chips and 80% of which are €20 chips. For his first bet, Mark places chips, 10% of which are €100 chips, in the center of the table. If 70% of Mark’s remaining chips are €20 chips, how much money did Mark bet?
You can view this as a word problem where you assume the number of chips and then go splitting them up or you can view this as a mixtures problem even though it doesn’t use words such as ‘mixture’, ‘solution’, ‘combined’ etc. As we have seen enough number of times, our mixture problems are solved in seconds using the weighted average concept.
The question discussed here also belongs to the same category – looks super tricky but can be easily solved with weighted averages formula. But we have seen plenty and more of such questions in our blog posts. Today we will take a look at a different type of sinister question and I suggest you to think about the concept being tested in that before trying to solve it.
Question: Mark owns four low quality watches. Watch1 loses 15 minutes every hour. Watch2 gains 15 minutes every hour relative to watch1 (that is, as watch1 moves from 12:00 to 1:00, watch2 moves from 12:00 to 1:15). Watch3 loses 20 minutes every hour relative to watch2. Finally, watch4 gains 20 minutes every hour relative to watch3. If Mark resets all four watches to the correct time at 12 noon, what time will watch4 show at 12 midnight that day?
(A)10:00
(B)10:34
(C)11:02
(D)11:48
(E)12:20
Before we look at the solution, think about the concept being tested here – clocks? Circular motion?
Neither!
Solution: Note that when giving data about watch1, you are told how it varies with the actual time. Data about all other watches tells us about the time they show relative to the incorrect watches. The concept being tested here is Relative Speed!
What do we mean by “gains 15 mins” or “loses 20 mins” etc? When a watch gains 15 mins every hour, it means that even though it should show that one hour has passed, it shows that 1 hr 15 mins have passed. So the watch runs faster than it should. Hence the speed of the watch is more than the speed of a correct watch. Now the question is how much more? The minute hand of the correct watch travels one full circle in one hour. The minute hand of the incorrect watch travels one full circle and then a quarter circle in one hour (to show that 1 hour 15 mins have passed even when only an hour has passed). So it is times the speed of a correct watch. On the same lines, let’s analyze each watch.
Say the speed of a correct watch is s.
– “Watch1 loses 15 minutes every hour.”
Watch1 covers only three quarters of the circle in an hour.
Speed of watch1 =
– “Watch2 gains 15 minutes every hour relative to watch1 (that is, as watch1 moves from 12:00 to 1:00, watch2 moves from 12:00 to 1:15).”
Now we have the speed of watch2 relative to speed of watch1. Speed of watch2 is times the speed of watch1.
Speed of watch2 =
– “Watch3 loses 20 minutes every hour relative to watch2.”
Watch3 loses 20 mins every hour means its speed is rd the speed of watch2
Speed of watch3 =
– “Finally, watch4 gains 20 minutes every hour relative to watch3.”
Speed of watch4 = Speed of watch3 =
So the speed of watch4 is th the speed of a correct watch. So if a correct watch shows that 6 hours have passed, watch4 will show that 5 hours have passed. If a correct watch shows that 12 hours have passed, watch4 will show that 10 hours have passed. From 12 noon to 12 midnight, a correct watch would have covered 12 hours. Watch4 will cover 10 hours and will show the time as 10:00.
Answer (A)