Measurement Of Angles

We know that π rad = 180°⇒1 rad = 180°/ π

(i) Given

= (36 × 9) °

= 324°

(ii) Given

= (30 × -5) °

= -(150) °

(iii) Given

= (36 × 18) °

= 648°

(iv) Given (-3) ^c

= -(171° 49’ 5.45”)

≈ -(171° 49’ 5”)

(v) Given 11^c

= (90 × 7) °

= 630°

(vi) Given 1^c

= (57° 16’ 21.81”)

≈ (57° 16’ 22”)

We know that 180° = π rad⇒1° = π/ 180 rad

(i) Given 300°

(ii) Given 35°

(iii) Given -56°

(iv) Given 135°

(v) Given -300°

(vi) Given 7° 30’

We know that 30’ = (1/2)°

∴ 7° 30’ = (7 1/2) °

(vii) Given 125° 30’

We know that 30’ = (1/2)°

∴ 125° 30’ = (1251/2) °

(viii) Given -47° 30’

We know that 30’ = (1/2)°

∴ -47° 30’ = -(471/2) °

Given the difference between the two acute angles of a right-angled triangle is 2π/5 radians.

We know that π rad = 180°⇒1 rad = 180°/ π

Given

= (36 × 2) °

= 72°

Let one acute angle be x° and the other acute angle be 90° - x°.

Then,

⇒ x° - (90° - x°) = 72°

⇒ 2x° - 90° = 72°

⇒ 2x° = 72° + 90°

⇒ 2x° = 162°

⇒ x° = 162°/ 2

∴ x° = 81° and 90° - x° = 90° - 81° = 9°

Given one angle of a triangle is 2x/3 grades and another is 3x/2 degree while the third is πx/75 radians.

We know that

We know that π rad = 180°⇒1 rad = 180°/ π

Given

We know that the sum of the angles of a triangle is 180°.

⇒ 45 x° = 180° × 10°

⇒ 45 x° = 1800°

⇒ x° = 1800°/ 45°

∴ x = 40°

∴ The angles of the triangle are

We know that the sum of the interior angles of a polygon = (n – 2) π

And each angle of polygon

(i) Pentagon

Number of sides in pentagon = 5

Sum of interior angles of pentagon = (5 – 2) π = 3π

∴ Each angle of pentagon

(ii) Octagon

Number of sides in octagon = 8

Sum of interior angles of octagon = (8 – 2) π = 6π

∴ Each angle of octagon

(iii) Heptagon

Number of sides in heptagon = 7

Sum of interior angles of heptagon = (7 – 2) π = 5π

∴ Each angle of heptagon

(iv) Duodecagon

Number of sides in duodecagon = 12

Sum of interior angles of duodecagon = (12 – 2) π = 10π

∴ Each angle of duodecagon

Let the angles of quadrilateral be (a – 3d) °, (a – d) °, (a + d) ° and (a + 3d) °.

We know that the sum of angles of a quadrilateral is 360°.

⇒ a – 3d + a – d + a + d + a + 3d = 360°

⇒ 4a = 360°

∴ a = 90°

Given the greatest angle = 120°

⇒ a + 3d = 120°

⇒ 90° + 3d = 120°

⇒ 3d = 120° - 90°

⇒ 3d = 30°

⇒ d = 10°

Hence, the angles are:

⇒ (a – 3d) ° = 90° - 30° = 60°

⇒ (a – d) ° = 90° - 10° = 80°

⇒ (a + d) ° = 90° + 10° = 100°

⇒ (a + 3d) ° = 120°

Angles of quadrilateral in radians:

Let the angles of the triangle be (a – d) °, a° and (a + d) °.

We know that the sum of the angles of a triangle is 180°.

⇒ a – d + a + a + d = 180°

⇒ 3a = 180°

∴ a = 60°

Given

⇒ 120 – 2d = 1

⇒ 2d = 119

∴ d = 59.5

Hence, angles are:

⇒ (a – d) ° = 60° – 59.5° = 0.5°

⇒ a° = 60°

⇒ (a + d) ° = 60° + 59.5° = 119.5°

∴ Angles of triangle in radians:

Let the number of sides in the first polygon be 2x and the number of sides in the second polygon be x.

We know that angle of an n-sided regular polygon

⇒ The angle of the first polygon

⇒ The angle of the second polygon

Thus,

⇒ 2x – 2 = 3x – 6

∴ x = 4

Thus,

Number of sides in the first polygon = 2x = 8

Number of sides in the second polygon = x = 4

Let the angles of the triangle be (a – d) °, a° and (a + d) °.

We know that the sum of angles of triangle is 180°.

⇒ a – d + a + a + d = 180°

⇒ 3a = 180°

∴ a = 60°

Given greatest angle = 5 × least angle

⇒ 60 + d = 300 – 5d

⇒ 6d = 240

∴ d = 40

Hence, angles are:

⇒ (a – d) ° = 60° – 40° = 20°

⇒ a° = 60°

⇒ (a + d) ° = 60° + 40° = 100°

∴ Angles of triangle in radians:

Let the number of sides in the first polygon be 5x and the number of sides in the second polygon be 4x.

We know that angle of an n-sided regular polygon

⇒ The angle of the first polygon

⇒ The angle of the second polygon

Thus,

⇒

∴ x = 2

Thus,

Number of sides in the first polygon = 5x = 10

Number of sides in the second polygon = 4x = 8

Given length of arc = 40 m

And θ = 25°

We know that 180° = π rad⇒1° = π/ 180 rad

We know that

= 91.64 m

So, the radius of the track should be 91.64 m.

Given radius = 5280 m

We know that

And know that

= 1.5365 m

Given the number of revolutions taken by the wheel in 1 minute = 360

Number of revolution taken by the wheel in 1 second = 360/ 6 = 6

We know that 1 revolution = 2π radians

∴ Number of radians the wheel will turn in 1 second = 6 × 2π = 12π

Given radius = 75 cm

We know that

(i) Given length of arc = 10 cm

(ii) Given length of arc = 15 cm

(iii) Given length of arc = 21 cm

Let AB be chord and O be the centre if the circle.

Here AO = BO = AB = 30 cm

∴ ΔAOB is an equilateral triangle.

Given radius = 30 cm

And θ = 60°

We know that 180° = π rad⇒1° = π/ 180 rad

We know that

= 10π cm

Given time is 10 seconds.

And speed = 66 km/h

We know that

Now radius of curve = 1500 m

We know that

So, the train will turn 11/ 90 radian in 10 seconds.

Let PQ be the diameter of the coin and E be the eye of the observer.

Let the coin be kept at a distance r from the eye of the observer to hide the moon completely.

We know that

= 221.7 cm

Let PQ be the diameter of the sun and E be the eye of the observer.

The distance between the Sun and Earth is large, so we will take PQ as arc PQ.

Given radius = 91 × 10⁶ km

We know that

= 847407.4 km

Let the angles subtended at the centers by the arcs and radii of first and second circles be θ₁ and r₁ and θ₂ and r₂.

Then,

We know that 180° = π rad⇒1° = π/ 180 rad

We know that

Given length of arc = 22 cm

And radius = 100 cm

We know that

∴ The angle subtended at the centre by the arc:

= 12° 36’.

Let θ be the angle which is measure in degree, radian and grade

We know that 90°=1 right angle

right angle

right angles

right angle ……(1)

Also we know that ,π radians=2 right angles

right angle

right angles

right angles ……(2)

Also we know that, 100 grades=1 right angle

⇒1 grade right angle

⇒G grade right angles

right angles ……(3)

From (1),(2) and (3)

Here, angles of triangle are in A.P.

So, Let angles of triangle are a,a+d,a+2d.

We know that, sum of angles of triangle is π.

∴ a+a+d+a+2d=π

∴ 3a+3d=π

∴ 3(a + d) =π

Also, by our assumption, a + d is one angle of triangle.

So, required measure of one of the angles is .

We know, in clock 1 rotation gives 360°

i.e. 60 minutes=360° and 12 hours=360°

So,1 minute=6° and 1 hour=30°

Now, For hour hand:

8 hours=8×30°=240° and for another 30 minute (which is half of hour) =30°÷2=15°

i.e. angle traced by hour hand is 240°+15°=255°

Now, For minute hand:

30 minute=30×6°=180°

i.e. angle traced by minute hand is 180°.

So, the angle between hour hand and minute hand=255°-180°

=75°

We know, in clock 1 rotation gives 360°

i.e. 60 minutes=360° and 12 hours=360°

So,1 minute=6° and 1 hour=30°

Now, For hour hand:

3 hours=3×30°=90° and for another 40 minute= (30°÷60)×40=20°

i.e. angle traced by hour hand is 90°+20°=110°

Now, for minute hand:

40 minute=40×6°=240°

i.e. angle traced by minute hand is 240°.

So, the angle between hour hand and minute hand=240°-110°

=130°

Let radius of two circles be the r₁ and r₂

Let θ₁ and θ₂ be the subtend angles of arcs of two circles

i.e. θ₁=65° and θ₂=110°

We know that arc length,

l = r × θ

Here, arc lengths of two circles are same.

∴ r₁×θ₁=r₂×θ₂

∴r₁ :r₂ =22:13

We know that, 1 revolution =2×π radians

Now, Angular velocity

=8×π

Here, radius of circular wire is r=7 cm

So, length of wire=2×π×r

=2×π×7

=14×π

Wire is cut and bent again into an arc of a circle of radius 12 cm.

So, length of arc=length of wire=14×π

We know, angle subtended by the arc is given by,

=210°

Here, arc length l=15π cm

Angle

We know, angle subtended by the arc is given by,

cm