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555-605 (Medium)|   Algebra|      
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rishit1080
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 14 Feb 2017, 23:44
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35% (medium)

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73% (01:35) correct 27% (02:16) wrong based on 1498 sessions

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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then the value of the product km is

(A) between 20 and 60
(B) between 60 and 100
(C) between 100 and 150
(D) between 150 and 200
(E) greater than 200
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A
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Bunuel
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 15 Feb 2017, 12:17
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lgarces19
If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then the value of the product km is

(A) between 20 and 60
(B) between 60 and 100
(C) between 100 and 150
(D) between 150 and 200
(E) greater than 200
Show more

Square k + m = 20;

(k + m)^2 = 20^2;

k^2 + 2km + m^2 = 400.

Since given that k^2 + m^2 = 289, then 289 + 2km = 400.

km = 111/2 = 55.5.

Answer: A.

P.S. Is this question really from GMAT Prep?
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BrentGMATPrepNow
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 16 Feb 2017, 10:31
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lgarces19
If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then the value of the product km is

(A) between 20 and 60
(B) between 60 and 100
(C) between 100 and 150
(D) between 150 and 200
(E) greater than 200
Show more

Bunuel's solution is perfect.
I just want to point out that there's no shortage of questions that test the concepts tested here.

Important expansions: (x + y)² = x² + 2xy + y² and (x - y)² = x² - 2xy + y²
So, if you see questions that include information about x² + y² and 2xy (or just xy), then you should consider their relationship with the above expansions.

Cheers,
Brent
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 15 Feb 2017, 14:47
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Bunuel
lgarces19
If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then the value of the product km is

(A) between 20 and 60
(B) between 60 and 100
(C) between 100 and 150
(D) between 150 and 200
(E) greater than 200

Square k + m = 20;

(k + m)^2 = 20^2;

k^2 + 2km + m^2 = 400.

Since given that k^2 + m^2 = 289, then 289 + 2km = 400.

km = 111/2 = 55.5.

Answer: A.

P.S. Is this question really from GMAT Prep?
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clearly, I need to brush up my quant skills...I took into consideration that k and m are integers...damn!
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 16 Feb 2017, 11:57
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lgarces19
If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then the value of the product km is

(A) between 20 and 60
(B) between 60 and 100
(C) between 100 and 150
(D) between 150 and 200
(E) greater than 200
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\(( k + m ) ^2= k^2 + m^2 + 2km\)

So, \(( 20 ) ^2= 289 + 2km\)

Or, \(400 = 289 + 2km\)

Or, \(2km = 111\)

Or, \(km = 55.5\)

Thus, km must be between 20 and 60, answer must be option (A) between 20 and 60
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 24 Sep 2019, 01:31
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Bunuel
lgarces19
If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then the value of the product km is

(A) between 20 and 60
(B) between 60 and 100
(C) between 100 and 150
(D) between 150 and 200
(E) greater than 200

Square k + m = 20;

(k + m)^2 = 20^2;

k^2 + 2km + m^2 = 400.

Since given that k^2 + m^2 = 289, then 289 + 2km = 400.

km = 111/2 = 55.5.

Answer: A.

P.S. Is this question really from GMAT Prep?


clearly, I need to brush up my quant skills...I took into consideration that k and m are integers...damn!
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Different year - same problem.

It's funny how the test makers can correctly measure the probability of test takers to fall into certain traps.
Because after you see it the light bulb goes on, but when you actually in the "zone" and calculating you don't even look left or right and watch for signs.

I did not even consider that the numbers might not be integers. Beginner mistake!
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 27 Dec 2019, 08:19
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lgarces19
If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then the value of the product km is

(A) between 20 and 60
(B) between 60 and 100
(C) between 100 and 150
(D) between 150 and 200
(E) greater than 200
Show more

GIVEN: k + m = 20 and k² + m² = 289

Take: k + m = 20
Square both sides to get: (k + m)² = 20²
Expand and simplify the left side: k² + 2km + m² = 400
Rewrite as: (k² + m²) + 2km= 400
Substitute to get: (289) + 2km= 400
Subtract 289 from both sides to get: 2km = 111
Divide both sides by 2 to get: km = 55.5

Answer: A

Cheers,
Brent
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 15 Aug 2020, 04:32
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lgarces19
If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then the value of the product km is

(A) between 20 and 60
(B) between 60 and 100
(C) between 100 and 150
(D) between 150 and 200
(E) greater than 200
Show more

Solution:

Since k + m = 20, we have:

(k + m)^2 = 20^2

k^2 + m^2 + 2km = 400

Since k^2 + m^2 = 289, we have:

289 + 2km = 400

2km = 111

km = 55.5

Answer: A
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 15 Aug 2020, 08:22
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then the value of the product km is

(A) between 20 and 60 --> correct: \(k^2 + m^2 = 289\) & k + m = 20 => \( (k + m)^2 = (20)^2 => k^2+m^2+2km = 400 => 289+2km=400=> 2km=111 => km = 55.5\), 55.5 is between 20 and 60, so km is between 20 and 60
(B) between 60 and 100
(C) between 100 and 150
(D) between 150 and 200
(E) greater than 200
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 15 Aug 2020, 09:16
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k + m = 20

On squaring both the sides, we get

\((k + m )^2\) = 400

On expanding, \(k^2\) + \(m^2\) + 2km = 400

Given: \(k^2\) + \(m^2\) = 289

=> 289 + 2km = 400

=> 2km = 400-289 = 111

=> km = \(\frac{111 }{ 2}\) = 55.5

It lies between 20 and 60.

Answer A
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 15 Aug 2020, 09:19
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Asked: If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then the value of the product km is

(k + m)^2 = 400 = k^2 + m^2 + 2km = 289 + 2km
2km = 400 - 289 = 111
km = 55.55

IMO A
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 23 Sep 2020, 09:21
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How come this is not solvable by this manner?
(20-M)^2 + M^2 = 289
...
2M^2-40M+111 = 0
Factoring this into form (2M... ) (M....)

Or this method?

Plugging this into Quadratic Equation ----> 2M^2-40M+111 = 0

The crucial step of converting k + m = 20 into this --> (k + m)^2 = 20^2; never occurred to me. How would I know next time NOT to take the two steps I took above and instead identify this key step which makes the numbers work out nicely? Perhaps there was a clue in the problem I should have identified? Thank you!
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 23 Sep 2020, 11:48
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k+m = 20
(k+m)^2 = 400
k^2 + m^2 + 2km = 400
2km = 111
km = 55.5
20<55.5<60
So, A
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 24 Oct 2020, 13:23
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Given: k + m = 20 and k^2 + m^2 = 289, what is km?

Notice 289 is the square of 17; thus, it's not possible for k and m to be integers.

Square k + m = 20 to get k^2 + 2km + m^2 = 400.

We're given k^2 + m^2 is 289:

400 - 289 = 111

2km = 111
km = 55.5

Answer is A.
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 26 Mar 2023, 06:05
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k and m are numbers such that k + m = 20 and k^2 + m^2 = 289

Helpful to know - 289 is basically 17^2

k + m = 20
square both sides
k^2 + m^2 + 2km = 20^2
or
17^2 + 2km = 20^2
or
KM = (0.5)(20^2 - 17^2) = (0.5)(37)(3)
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If k and m are numbers such that k + m = 20 and k^2 + m^2 = 289, then 22 Sep 2025, 23:47
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Hey there! I see you're working through this algebraic problem involving the sum and sum of squares. Let's tackle this together - it's actually quite elegant once you see the key insight.

Here's how to approach this problem:

Let me show you the strategic way to think about this. When you have two numbers with a known sum and sum of squares, there's a beautiful algebraic relationship we can use.

Step 1: Recognize what we have
We're given:
- \(k + m = 20\)
- \(k^2 + m^2 = 289\)
- We need to find \(km\)

Step 2: Apply the key insight
Notice how if we square the sum \((k + m)\), we get something useful. When you expand \((k + m)^2\), you get:
\((k + m)^2 = k^2 + 2km + m^2\)

This can be rearranged as:
\((k + m)^2 = k^2 + m^2 + 2km\)

Step 3: Substitute and solve
Now let's plug in what we know:
- \((k + m)^2 = 20^2 = 400\)
- \(k^2 + m^2 = 289\)

So: \(400 = 289 + 2km\)

Solving for \(km\):
\(2km = 400 - 289 = 111\)
\(km = 55.5\)

Step 4: Find the right range
Since \(km = 55.5\), and \(20 < 55.5 < 60\), the answer is (A) between 20 and 60.

The beauty of this approach is that you never need to find the individual values of k and m - the product emerges directly from the given information!

You can check out the step-by-step solution on Neuron by e-GMAT to master this algebraic pattern systematically and learn how to recognize when this technique applies to other symmetric function problems. You can also explore other GMAT official questions with detailed solutions on Neuron for structured practice here, where you'll find comprehensive explanations and practice quizzes to build consistent accuracy with these algebraic manipulation questions.
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