Solution Of Triangles

Left hand side,

a(b cos C – c cos B)

= ab cos C – ac cos B

[As, & ]

b² – c²

Right hand side. [Proved]

Left hand side,

ac cos B – bc cos A

[As, & ]

a² – b²

Right hand side. [Proved]

Need to prove:

Left hand side

[Multiplying the numerator and denominator by ]

Right hand side. [Proved]

Need to prove: 2(bc cos A + ca cos B + ab cos C) = (a² + b² + c²)

Left hand side

2(bc cos A + ca cos B + ab cos C)

b² + c² – a² + c² + a² – b² + a² + b² – c²

a² + b² + c²

Right hand side. [Proved]

Need to prove:

Right hand side

, where s is half of perimeter of triangle.

4(s(s – a) + s(s – b) + s(s – c))

4(3s² – s(a + b + c))

We know, 2s = a +b +c

So,

3(a + b + c)² – 2(a + b + c)²

(a + b + c)²

Right hand side. [Proved]

Need to prove: a sin A – b sin B = c sin (A – B)

Left hand side,

a sin A – b sin B

(b cosC + c cosB) sinA – (c cosA + a cosC) sinB

b cosC sinA + c cosB sinA – c cosA sinB – a cosC sinB

c(sinA cosB – cosA sinB) + cosC(b sinA – a sinB)

We know that, where R is the circumradius.

Therefore,

c(sinA cosB – cosA sinB) + cosC(2R sinB sinA – 2R sinA sinB)

c(si nA cosB – cosA sinB)

c sin (A – B)

Right hand side. [Proved]

Need to prove: a² sin ( B – C ) = (b² – c²) sin A

We know that, where R is the circumradius.

Therefore,

a = 2R sinA ---- (a)

Similarly, b = 2R sinB and c = 2R sinC

From Right hand side,

(b² – c²) sin A

{(2R sinB)² – (2R sinC)²} sinA

4R²( sin²B – sin²C )sinA

We know, sin²B – sin²C = sin(B + C)sin(B – C)

So,

4R²(sin(B + C)sin(B – C))sinA

4R²(sin( – A)sin(B – C))sinA [ As, A + B + C = ]

4R²(sinAsin(B – C))sinA [ As, sin( – ) = sin ]

4R²sin²A sin(B – C)

a²sin(B – C) [From (a)]

Left hand side. [Proved]

Need to prove:

We know that, where R is the circumradius.

Therefore,

a = 2R sinA ---- (a)

Similarly, b = 2R sinB and c = 2R sinC

From Right hand side,

Left hand side. [Proved]

Need to prove:

We know that, where R is the circumradius.

Therefore,

a = 2R sinA ---- (a)

Similarly, b = 2R sinB and c = 2R sinC

From Left hand side,

Right hand side. [Proved]

Need to prove:

We know that, where R is the circumradius.

Therefore,

a = 2R sinA ---- (a)

Similarly, b = 2R sinB and c = 2R sinC

Now,

Therefore,

⇒

⇒

⇒

⇒ [Proved]

Need to prove:

We know that, where R is the circumradius.

Therefore,

a = 2R sinA ---- (a)

Similarly, b = 2R sinB and c = 2R sinC

Now,

⇒

⇒

⇒

⇒

⇒

⇒

⇒

⇒ [Proved]

Need to prove: a²(cos²B – cos²C) + b²(cos²C – cos²A) + c²(cos²A – cos²B) = 0

From left hand side,

a²(cos²B – cos²C) + b²(cos²C – cos²A) + c²(cos²A – cos²B)

a²((1 - sin²B) – (1 - sin²C)) + b²((1 - sin²C) – (1 - sin²A)) + c²((1 - sin²A) – (1 - sin²B))

a²( - sin²B + sin²C) + b²( - sin²C + sin²A) + c²( - sin²A + sin²B)

We know that, where R is the circumradius.

Therefore,

a = 2R sinA ---- (a)

Similarly, b = 2R sinB and c = 2R sinC

So,

4R²[ sin²A( - sin²B + sin²C) + sin²B( - sin²C + sin²A) + sin²C( - sin²A + sin²B)

4R²[ - sin²Asin²B + sin²Asin²C – sin²Bsin²C + sin²Asin²B – sin²Asin²C + sin²Bsin²C ]

4R² [0]

0 [Proved]

Need to prove:

Left hand side

Right hand side. [Proved]

Need to prove:

We know that, where R is the circumradius.

Therefore,

a = 2R sinA ---- (a)

Similarly, b = 2R sinB and c = 2R sinC

From left hand side,

Now,

0 [Proved]

Need to prove:

Left hand side,

We know that, where R is the circumradius.

Therefore,

Hence,

[Proved]

Need to prove: (c² – a² + b²) tan A = (a² – b² + c²) tan B = (b² – c² + a²) tan C

We know,

------ (a)

Similarly, and

Therefore,

[from (a)]

Similarly,

and

Hence we can conclude comparing above equations,

(c² – a² + b²) tanA = (a² – b² + c²) tanB = (b² – c² + a²) tanC

[Proved]

Given: ∠C = 90⁰

Need to prove:

Here, ∠C = 90⁰ ; sinC = 1

So, it is a Right-angled triangle.

And also, a² + b² = c²

Now,

We know that, where R is the circumradius.

Therefore,

[As, sinC = 1]

Therefore,

⇒

⇒ [Proved]

Given:

Need to prove: ∆ABC is isosceles.

⇒

⇒ [Squaring both sides]

⇒

We know,

Therefore,

So,

⇒

⇒

That means a and b sides are of same length. Therefore, the triangle is isosceles. [Proved]

Given:

Need to prove: The triangle is right-angled

sin²A + sin²B = sin²C

We know,

So,

This is one of the properties of right angled triangle. And it is satisfied here. Hence, the triangle is right angled. [Proved]

Given: a = 2 cm, b = 1 cm and c = cm

Perimeter = a + b + c = 3 + cm

Area =

=

=

=

= cm² [Proved]

Given: a = 3 cm, b = 5 cm and c = 7 cm

Need to find: cos A, cos B, cos C

Given: Angles of a triangle are in the ratio 1 : 2 : 3

Need to prove: Its corresponding sides are in the ratio

Let the angles are x , 2x , 3x

Therefore, x + 2x + 3x = 180⁰

6x = 180⁰

x = 30⁰

So, the angles are 30⁰ , 60⁰ , 90⁰

So, the ratio of the corresponding sides are:

= sin30⁰ : sin60⁰ : sin90⁰

=

= [Proved]

Both the boats starts from A and boat 1 reaches at B and boat 2 reaches at C.

Here, AB = 60Km and AC = 50Km

So, the net distance between ta boats is:

|

=

=

= 55.67Km

Distance from A to B is =

Let, bearing from A to B is .

So,

After ascending 1 km towards the mountain up an incline of 30⁰, the elevation changes to 60⁰

So, according to the figure given, AB = AF x sin30⁰ = (1 x 0.5) = 0.5 Km.

At point A the elevation changes to 60⁰.

In this figure, ABF ACS

Comparing these triangles, we get AB = AC = 0.5Km

Now, CS = AC x tan60⁰ = (0.5 x 1.73) = 0.865Km

Therefore, the total height of the mountain is = CS + DC

= CS + BA

= (0.865 + 0.5) Km

= 1.365 Km