Question

WHAT IS THE "STRILLING" FEMALE OF PADOSI?
PADOSAN OR PADOSIN?

Answer 1

Answer:

Question:

The value of a for which the given pair of equations (2a - 1)x + (a - 1)y - (2a + 1) = 0 ; 6x + 2y - 1 = 0 have no solutions is :

a = 1

a = 2

a = -1

a = -2

Answer:

Second option a = 2 is correct.

Step By step Explanation:

Given:

Two equations ; (2a - 1)x + (a - 1)y - (2a + 1) = 0 and 6x + 2y - 1 = 0

To Find:

Value of a for which given pair of equations have no solution.

Solution:

Here, we have two equations (2a - 1)x + (a - 1)y - (2a + 1) = 0 and 6x + 2y - 1 = 0, we know that in case of no solution ::

\pmb{\boxed{\bf{\purple{\dfrac{a_{1}}{a_{2}} = \dfrac{b_{1}}{b_{2}} \neq \dfrac{c_{1}}{c_{2}}}}}}

a

2

a

1

=

b

2

b

1



=

c

2

c

1

a

2

a

1

=

b

2

b

1



=

c

2

c

1

Where, \bf a_{1}a

1

is coefficient of x in first equation, \bf a_{2}a

2

is coefficient of x in second equation, \bf b_{1}b

1

is cofficient of y in first equation, \bf b_{2}b

2

is coefficient of y in second equation, \bf c_{1}c

1

is constant term in first equation and \bf c_{2}c

2

is constant term in second equation.

We have, \bf a_{1}a

1

= (2a - 1), \bf a_{2}a

2

= 6, \bf b_{1}b

1

= (a - 1), \bf b_{2}b

2

= 2, \bf c_{1}c

1

= (2a + 1) and \bf c_{2}c

2

= -1.

❏ Finding value of a :

⇒ \sf \dfrac{a_{1}}{a_{2}} = \dfrac{b_{1}}{b_{2}} \neq \dfrac{c_{1}}{c_{2}}

a

2

a

1

=

b

2

b

1



=

c

2

c

1

❏ Putting all known values :

⇒ \sf \dfrac{2a - 1}{6} = \dfrac{a - 1}{2} \neq \dfrac{2a + 1}{-1}

6

2a−1

=

2

a−1



=

−1

2a+1

⇒ \sf \dfrac{2a - 1}{6} = \dfrac{a - 1}{2}

6

2a−1

=

2

a−1

★ By cross multiplication :

⇒ \sf 2(2a - 1) = 6(a - 1)2(2a−1)=6(a−1)

⇒ \sf 4a - 2 = 6a - 64a−2=6a−6

⇒ \sf 6a - 4a = -2 + 66a−4a=−2+6

⇒ \sf 2a = 42a=4

⇒ \sf a = {\cancel{\dfrac{4}{2}}}a=

2

4

➠ \pmb{\blue{\underline{\boxed{\bf{\pink{a = 2}}}}}}

a=2

a=2

∴ Hence, value of a for which the given pair of equations have no solution is 2. So, second option a = 2 is correct.

Verification:

↦ \sf \dfrac{a_{1}}{a_{2}} = \dfrac{b_{1}}{b_{2}} \neq \dfrac{c_{1}}{c_{2}}

a

2

a

1

=

b

2

b

1



=

c

2

c

1

↦ \sf \dfrac{2a - 1}{6} = \dfrac{a - 1}{2} \neq \dfrac{2a + 1}{-1}

6

2a−1

=

2

a−1



=

−1

2a+1

❏ Putting value of a in above eqⁿ :

↦ \sf \dfrac{2(2) - 1}{6} = \dfrac{2 - 1}{2} \neq \dfrac{2(2) + 1}{-1}

6

2(2)−1

=

2

2−1



=

−1

2(2)+1

↦ \sf \dfrac{4 - 1}{6} = \dfrac{1}{2} \neq \dfrac{4 + 1}{-1}

6

4−1

=

2

1



=

−1

4+1

↦ \sf {\cancel{\dfrac{3}{6}}} = \dfrac{1}{2} \neq \dfrac{5}{-1}

6

3

=

2

1



=

−1

5

➦ \pmb{\blue{\underline{\boxed{\bf{\pink{\dfrac{1}{2} = \dfrac{1}{2} \neq -\dfrac{5}{1}}}}}}}

2

1

=

2

1



=−

1

5

2

1

=

2

1



=−

1

5

∴ Hence, Verified!

So, our ans i.e, a = 2 is correct.

★ Know More :

\clubsuit♣ In case of unique solution :

\pmb{\boxed{\bf{\red{\dfrac{a_{1}}{a_{2}} \neq \dfrac{b_{1}}{b_{2}}}}}}

a

2

a

1



=

b

2

b

1

a

2

a

1



=

b

2

b

1

\clubsuit♣ In case of infinitely many solutions :

\pmb{\boxed{\bf{\blue{\dfrac{a_{1}}{a_{2}} = \dfrac{b_{1}}{b_{2}} = \dfrac{c_{1}}{c_{2}}}}}}

a

2

a

1

=

b

2

b

1

=

c

2

c

1

a

2

a

1

=

b

2

b

1

=

c

2

c

1

\clubsuit♣ In case of no solution :

\pmb{\boxed{\bf{\green{\dfrac{a_{1}}{a_{2}} = \dfrac{b_{1}}{b_{2}} \neq \dfrac{c_{1}}{c_{2}}}}}}\qquad\Bigg\{\pmb{\sf{Used\:above}}\Bigg\}

a

2

a

1

=

b

2

b

1



=

c

2

c

1

a

2

a

1

=

b

2

b

1



=

c

2

c

1

{

Usedabove

Usedabove}

▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬▬

Answer 2

Answer:

Padosan

Explanation:

padosan padosan