System of two quadratics equation, P(x) and Q(x) If

Pablo Dennis

Pablo Dennis

Answered question

2022-04-01

System of two quadratics equation, P(x) and Q(x)
If P(x)=ax2+bx+c and Q(x)=ax2+dx+c,ac0, then the equation P(x). Q(x)=0 has
(A) Exactly two real roots
(B) At least two real roots
(C) Exactly four real roots
(D) No real roots

Answer & Explanation

German Ferguson

German Ferguson

Beginner2022-04-02Added 18 answers

Set PQ=(ax2+bx+c)(ax2+dx+c) to zero, to get
(ax2+bx+c)(ax2+dx+c)=0.
Check the discriminant for both P and Q.
For P, you get DP=b24ac. For Q, you get DQ=d2+4ac.
Suppose P has no real roots, such that DP=b24ac<04ac>b2. In that case, DQ=d2+4ac>0 and Q thus has two roots, so your polynomial PQ has at least two roots.
Next, suppose P has 1 real root, in which case 4ac=b2 and so D1=d2+b2 which has 2 roots, so PQ has 3.
Lastly, suppose P has 2 real roots, and thus b2>4ac, in which case Q may have zero, one, or two real roots.
Therefore, PQ has at least two real roots.
Marquis Ibarra

Marquis Ibarra

Beginner2022-04-03Added 9 answers

You can do similar argue for your second equations also. And it will be real root's iff d24ac0.
And now ac must be non zero . So either ac is positive or negative. So you can compare these two equation by considering both ac and you will find that discriminant remains always positive.

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