Faulty Weight Scales

Question

You are in a room with 3 digital weight scales and a big book. The digital scales are small like the ones you see in small stores. They are identical in all aspects. They all have a READ button which when pushed gives you a weight reading for 1 second. Readings are in whole pounds, not fractions.

One scale is accurate.

One scale always gives 1 pound less reading.

One scale always gives 1 pound high reading.

By taking only TWO weight readings determine which scale is accurate, which one gives lower reading and which one gives higher reading. No, you cannot stand on the scale!

Answer 1

Since all of the weight scales are identical in all aspects, their weight should be the same too:

Let the weight of a scale be X

Now weigh scales B and C on scale A, the reading will be 2X-1, 2X, or 2X+1 - I'll refer to this reading as R1

Next, weigh scale C on scale B, the reading will be X-1, X or X+1 - and this reading as R2

Take R1 - (2 x R2)

if the answer is:
-1 : scale A reads 1 pound less, scale B is accurate, scale C reads 1 pound high
-3 : scale A reads 1 pound less, scale B reads 1 pound high, scale C is accurate
+2 : scale A is accurate, scale B reads 1 pound less, scale C reads 1 pound high
-2 : scale A is accurate, scale B reads 1 pound high, scale C reads 1 pound less
+3 : scale A reads 1 pound high, scale B reads 1 pound less, scale C is accurate
+1 : scale A reads 1 pound high, scale B is accurate, scale C reads 1 pound less

Not going to bore you with the math, but not rocket science once you think out of the box

Answer 2

The solution is simple:

Just press the "READ" button on two of the scales without putting anything on them. They'll say either -1, 0, or 1. That tells you their offsets. Then you can just figure out the other one from what's missing.

Answer 3

Tear one page from the book.

Weigh it on scale 1. There are 3 possible readings:

1. Zero: Scale 1 is the accurate scale and we are done.
2. +1 or -1: Now we know that scale 1 is not the accurate scale. Weigh the page on scale 2. This will give 2 possible readings:
    1. Zero: Scale 2 is the accurate scale and we are done.
    2. -1 or +1: (The opposite of what we got on scale 1.) Scale 3 is the accurate scale and we are done.

Answer 4

This is a hopefully easier to understand explanation of what I think some of the other answers are trying to get at.

First, use scale one to weigh scale two and three at the same time. If the reading is an even number, then that is the accurate scale. If it is an odd number, it is one of the inaccurate scales.

Next, use scale two to weigh scale one and three at the same time. If one was the accurate scale, then two will either show one pound less or one pound more and you will know which one is which. If scale one was inaccurate, then scale two will either show an even number (meaning it is the accurate scale), or an odd number (meaning that it is the other inaccurate scale).

Answer 5

Here is a tentative solution.

Weight the book on scale A. For example, you get 21 pounds.
You then know that the correct weight must be 20,21 or 22.
Place the 3 identical scales next to each other to form a triangle and place the book in the middle so to split the weight in 3 then press the weight button on scale B.
If the weight is 6, you got 3 possibilities.
4,5,6 (14)
5,6,7 (18)
6,7,8 (21) = must be the correct answer
If the weight is 7, you got 3 possibilities.
5,6,7 (18)
6,7,8 (21) = must be the correct answer
7,8,9 (24)
If the weight is 8, you got 3 possibilities.
6,7,8 (21) = must be the correct answer
7,8,9 (24)
8,9,10 (27)
Since scale A gave you 21 it must be the accurate one,
If scale B gave you 6, it must be the "- 1 pound" scale.
If scale B gave you 8, it must be the "+ 1 pound" scale.
This method seems to work for any outcome.

Answer 6

so here goes my answer, though just a guess of a guest:

I think, first you should weigh two of the weighing scale (A and B) in the remaining weighing scale (C), then divide the weight reading (A+B) into 2 ((A+B)/2). If the quotient((A+B)/2) has a remainder, it (C) is either the +1 or -1 pound scale, else it is the accurate scale.

If C is the accurate scale, weigh one of the scales (A or B), and if it is greater than the quotient((A+B)/2) then it is the +1 pound scale, or if it is less than the quotient((A+B)/2) then it is the -1 pound scale.

If C scale is either +1 or -1 scale because of the remainder, then weigh C and A together. Divide the weight into 2, and if it has a remainder, then B is either +1 or -1 scale, else it is the accurate scale. If the (A+B) is greater than (C+A), then B is the +1 scale, else C is the +1 scale.

Answer 7

If this is allowed

1st Answer (wrong)
1. Put that big book on 2 weighing scales, both will show different results
2. Then swap out 1 of them for the other weighing scale and get that reading
3. the middle 1 is the correct 1

2nd Answer
1. Let's say the book is 10 pounds (solution does not work if book's weight is not whole pound and weight is not divisible by 2), and the weighing scales can weigh accurately but simply round to nearest whole pound
2. Putting the book on 2 weighing scales would show:
(5, 6), (4, 5), (4, 6)
3. If it is the 3rd reading, you know the other weighing scale is the correct one as this reading has a disparity of 2
4. If it is the first 2 reading, (possibly out of the boundary of the question) Quickly pull away 1 of the scales and if the remaining scale did not double, the 1 you pulled is the correct 1, else if it did double then the remaining 1 is correct (do all this under 1 second)

Answer 8

Lay the book evenly across the 3 scales so each scale bears a third of the weight. Pick one scale and use a READ. Now remove the book and place it on ONLY 1 of the 2 scales you haven't read yet and READ.

Now, multiply the first READ weight by 3.

If the result is < 3 (number will change based on divisibility by 3) units rom the second reading, then the first scale you chose is the correct scale. From there you can figure out the other 2 by whether the second reading is greater or less than your result.

If the result is > 3 units away from the second reading, you have picked the two incorrect scales and can work out which is which by whichever is higher/lower, leaving the unread scale to be the correct one.

If the result is exactly 3 units away from the second reading, then the second scale you read is the correct scale, and you can work out the two others by whether the result (first reading * 3) is less than or greater than the correct one.

Answer 9

Scales A, B and C. All weigh same (they are identical so they all have same mass) There are six possible combinations: A accurate B Negative C Positive A accurate B Positive C Negative A Positive B Accurate C Negative A Negative B Accurate C Positive A positive B negative C Accurate A negative B positive C Accurate Put scale B or C on A : Take FIRST Reading x Put A AND C (both) on B : Take Second Reading y For all the six combinations above there are six DIFFERENT equations for x and Y y=2x-1 y=2x+1 y=2x-2 y=2x+2 y=2(x-1)-1 y=2(x+1)+1 Try a number