Get Expert Math Answers for Your Japanese Scholarship Exam | Study in Japan

[aalmighty]

I'm giving a scholarship exam to study undergrad engineering in Japan. They have a sample test on their site for practice, I've attempted it but have no one to check my answers and they aren't given anywhere, so please check and correct whever nessasary

download the question paper from http://www.studyjapan.go.jp/en/toj/pdf/017e.pdf". Even though the paper is in english, you'll need to get japanese support on your acrobat.

My Answers

1) 1. x lies between 1 and 2, not including 1 and 2

2. x=1

3. x=2

4. x lies between pi/6 and pi/3 and between 2*pi/3 and 5*pi/6, ends not included

5. x lies between negative infinity to -1 and further between 1 to infinity, ends not included.

6. r=sqrt(3), theta=pi/6

7. a=2, b=13

8. 6

9. 7

10. 0

11. 1/45 and 14/45 respectively

2) 1. (a^3)/8

2. (a/2)^n3) a=-1, b=0, c=2

4) a. (1-k)x - y + (k^2)/2 = 0

b. Couldn't solve, please help

c. Dependent on part b, so couldn't solve.

 

[nazzard]

Hello aalmighty,

I only had a look at problem number 4 so far. I get the same equation for the tangent to the curve C_1. Just try to find the equation for the tangent to the curve C_2 on the same way and go from there.

I've found two values for k leading to two tangents. If you take a closer look at both curves (maybe sketch them), you'll quickly see which ones they are.

Regards,

nazzard

 

[HallsofIvy]

For 1, part 5, you have a typo: it should be x< -1 or x> 1 (you have x< 1 or x> 1).

For 1, part 6, I get \frac{2}{5}\sqrt{3} not your \sqrt{3}.


For 2, the answers, A² and Aⁿ, must be matrices not numbers. Did you think they meant the determinant?

 

[aalmighty]

if they were matrices, they could be written as a function of A, which is the original matrix, the question said to write in terms of a, so I assumed it meant the determinant. Isn't that the case? If it isn't, please explain.

 

[HallsofIvy]

if they were matrices, they could be written as a function of A, which is the original matrix, the question said to write in terms of a, so I assumed it meant the determinant. Isn't that the case? If it isn't, please explain.

That's certainly not how I read the question! Writing them "as a function of A" would just be A², A³, etc. ! Just go ahead and calculate a few of the products and see what happens.

If
A= \left( \begin{array}{cc} a &amp; 0 \\ 1 &amp; a \end{array}\right)
then
A^2= \left( \begin{array}{cc} a^2 &amp; 0 \\ 2a &amp; a^2 \end{array}\right)
A^3= \left( \begin{array}{cc} a^3 &amp; 0 \\ 3a^2 &amp; a^3 \end{array}\right)

Do you see the pattern?