Have a query? Ask a Tutor!!

Access to best educators and exclusive paper discussions

Offsite Campus Turito Championship

Can’t find what you’re looking for?

Our tutors are from top schools around the world, and they are waiting for you 24/7, anytime, anywhere.

Homework- One to One Solutions
Understand concepts to solve better
Get your doubts solved instantly

Maths-

General

Easy

Question

In a triangle ABC, a: b: c = 4: 5: 6. Then 3A + B equals to :

4C
$2 π$
$π - C$
$π$

hint Hint:

$U s e space f o r m u l a space a n d space f i n d space t h e space a n s w e r space colon cos B space equals space fraction numerator a squared space plus space c squared space minus space b squared over denominator 2 a c end fraction space a n d space cos A space equals space fraction numerator b squared space plus c squared space minus space a squared over denominator 2 b c end fraction$

The correct answer is: $straight pi$

Given : In a triangle ABC, a: b: c = 4: 5: 6.

To Find : 3A + B = ?

Let a = 4k , b = 5k and c = 6k
We know that :
$cos B space equals space fraction numerator a squared space plus space c squared space minus space b squared over denominator 2 a c end fraction space a n d space cos A space equals space fraction numerator b squared space plus c squared space minus space a squared over denominator 2 b c end fraction S u b s t i t u t i n g space t h e space v a l u e s space o f space a comma b space a n d space c space rightwards double arrow cos B space equals space fraction numerator 16 k squared space plus 36 space k squared space minus space 35 k squared over denominator 48 k squared end fraction space equals space 9 over 16 space comma space a n d rightwards double arrow cos A space equals space fraction numerator 25 k squared space plus 36 k squared space minus space 16 k squared over denominator 60 k squared end fraction space equals space 3 over 4$

By using formula

$cos 3 theta space equals 4 cos cubed theta space space minus space 3 cos theta L e t space theta space equals space A cos 3 A space equals space 4 cos cubed A space space minus space 3 cos A S u b s t i t u t e space t h e space v a l u e s space o f space cos A rightwards double arrow cos 3 A space equals space 4 open parentheses 3 over 4 close parentheses cubed space space minus space 3 cross times 3 over 4 space equals space minus 9 over 16 rightwards double arrow cos 3 A space equals space minus cos B space left parenthesis space cos B space equals space 9 over 16 right parenthesis bold italic A bold italic l bold italic s bold italic o bold space bold italic w bold italic e bold space bold italic k bold italic n bold italic o bold italic w bold space bold italic t bold italic h bold italic a bold italic t cos open parentheses straight pi space minus space straight theta close parentheses space equals space minus cos theta rightwards double arrow cos 3 A space equals space cos left parenthesis straight pi space minus space space straight B right parenthesis Comparing space and space equating space the space angles rightwards double arrow 3 straight A space equals space left parenthesis straight pi space minus space space straight B right parenthesis rightwards double arrow 3 straight A plus straight B space equals space space straight pi$

Thus, In a triangle ABC, a: b: c = 4: 5: 6. Then 3A + B equals to $straight pi$ .

Related Questions to study

A bullet of mass $m$ is fired with a velocity of 50 $m s to the power of negative 1 end exponent$ at an angle $theta$ with the horizontal. At the highest point of its trajectory, it collides had on with a bob of massless string of length $l equals 10 divided by 3$ m and gets embedded in the bob. After the collision, the string moves to an angle of 120 $degree$ . What is the angle $theta ?$

A bullet of mass $m$ is fired with a velocity of 50 $m s to the power of negative 1 end exponent$ at an angle $theta$ with the horizontal. At the highest point of its trajectory, it collides had on with a bob of massless string of length $l equals 10 divided by 3$ m and gets embedded in the bob. After the collision, the string moves to an angle of 120 $degree$ . What is the angle $theta ?$

physics-General

A spherical hollow is made in a lead sphere of radius $R$ such that its surface touches the outside surface of lead sphere and passes through the centre. What is the shift in the centre of lead sphere as a result of this hollowing?

A spherical hollow is made in a lead sphere of radius $R$ such that its surface touches the outside surface of lead sphere and passes through the centre. What is the shift in the centre of lead sphere as a result of this hollowing?

physics-General

On heating a mixture of $N H subscript 4 end subscript C l$ ans $K N O subscript 2 end subscript$ , we get –

On heating a mixture of $N H subscript 4 end subscript C l$ ans $K N O subscript 2 end subscript$ , we get –

chemistry-General

parallel

Three identical blocks $A comma B$ and $C$ are placed on horizontal frictionless surface. The blocks $A$ and $C$ are at rest. But $A$ is approaching towards $B$ with a speed 10 $m s to the power of negative 1 end exponent$ . The coefficient of restitution for all collisions is 0.5. The speed of the block $C$ just after collision is

Three identical blocks $A comma B$ and $C$ are placed on horizontal frictionless surface. The blocks $A$ and $C$ are at rest. But $A$ is approaching towards $B$ with a speed 10 $m s to the power of negative 1 end exponent$ . The coefficient of restitution for all collisions is 0.5. The speed of the block $C$ just after collision is

physics-General

Two identical masses $A$ and $B$ are hanging stationary by a light pulley (shown in the figure). A shell $C$ moving upwards with velocity $v$ collides with the block $B$ and gets stick to it. Then

Two identical masses $A$ and $B$ are hanging stationary by a light pulley (shown in the figure). A shell $C$ moving upwards with velocity $v$ collides with the block $B$ and gets stick to it. Then

physics-General

In the given figure four identical spheres of equal mass $m$ are suspended by wires of equal length $l subscript 0 end subscript$ , so that all spheres are almost touching to each other. If the sphere 1 is released from the horizontal position and all collisions are elastic, the velocity of sphere 4 just after collision is

In the given figure four identical spheres of equal mass $m$ are suspended by wires of equal length $l subscript 0 end subscript$ , so that all spheres are almost touching to each other. If the sphere 1 is released from the horizontal position and all collisions are elastic, the velocity of sphere 4 just after collision is

physics-General

parallel

Two negatively charges particles having charges $e subscript 1 end subscript$ and $e subscript 2 end subscript$ and masses $m subscript 1 end subscript$ and $m subscript 2 end subscript$ respectively are projected one after another into a region with equal initial velocity. The electric field $E$ is along the $y$ -axis, while the direction of projection makes an angle a with the $y$ -axis. If the ranges of the two particles along the $x$ -axis are equal then one can conclude that

Two negatively charges particles having charges $e subscript 1 end subscript$ and $e subscript 2 end subscript$ and masses $m subscript 1 end subscript$ and $m subscript 2 end subscript$ respectively are projected one after another into a region with equal initial velocity. The electric field $E$ is along the $y$ -axis, while the direction of projection makes an angle a with the $y$ -axis. If the ranges of the two particles along the $x$ -axis are equal then one can conclude that

physics-General

Two blocks $m subscript 1 end subscript$ and $m subscript 2 end subscript$ ( $m subscript 2 end subscript greater than m subscript 1 end subscript$ ) are connected with a spring of force constant $k$ and are inclined at a angel $theta$ with horizontal. If the system is released from rest, which one of the following statements is/are correct?

Two blocks $m subscript 1 end subscript$ and $m subscript 2 end subscript$ ( $m subscript 2 end subscript greater than m subscript 1 end subscript$ ) are connected with a spring of force constant $k$ and are inclined at a angel $theta$ with horizontal. If the system is released from rest, which one of the following statements is/are correct?

physics-General

In the given figure, two bodies of mass $m subscript 1 end subscript$ and $m subscript 2 end subscript$ are connected by massless spring of force constant $k$ and are placed on a smooth surface (shown in figure), then

In the given figure, two bodies of mass $m subscript 1 end subscript$ and $m subscript 2 end subscript$ are connected by massless spring of force constant $k$ and are placed on a smooth surface (shown in figure), then

physics-General

parallel

Which of the following noble gas was reacted with $P t F subscript 6 end subscript$ by Bartlett to prepare the first noble gas compounds -

Which of the following noble gas was reacted with $P t F subscript 6 end subscript$ by Bartlett to prepare the first noble gas compounds -

chemistry-General

A set of $n$ identical cubical blocks lies at rest parallel to each other along a line on a smooth horizontal surface. The separation between the near surfaces of any two adjacent blocks is $L$ . The block at one end is given a speed $v$ towards the next one at time $t equals 0$ . All collision are completely elastic. Then

A set of $n$ identical cubical blocks lies at rest parallel to each other along a line on a smooth horizontal surface. The separation between the near surfaces of any two adjacent blocks is $L$ . The block at one end is given a speed $v$ towards the next one at time $t equals 0$ . All collision are completely elastic. Then

physics-General

The blocks $A$ and $B$ , each of mass $m$ , are connected by massless spring of natural length $L$ and spring constant $k$ . The blocks are initially resting on a smooth horizontal floor with the spring at its natural length, as shown in figure. A third identical block $C$ , also of mass $m$ , moves on the floor with a speed $v$ along the line joining $A$ and $B$ , and collides with $A$ . Then

The blocks $A$ and $B$ , each of mass $m$ , are connected by massless spring of natural length $L$ and spring constant $k$ . The blocks are initially resting on a smooth horizontal floor with the spring at its natural length, as shown in figure. A third identical block $C$ , also of mass $m$ , moves on the floor with a speed $v$ along the line joining $A$ and $B$ , and collides with $A$ . Then

physics-General

parallel

Find the velocity of centre of the system shown in the figure.

Find the velocity of centre of the system shown in the figure.

physics-General

Two blocks $A$ and $B$ are connected by a massless string (shown in figure). A force of 30 N is applied on block $B$ . The distance travelled by centre of mass in 2 s starting from rest is

Two blocks $A$ and $B$ are connected by a massless string (shown in figure). A force of 30 N is applied on block $B$ . The distance travelled by centre of mass in 2 s starting from rest is

physics-General

Three rods of the same mass are placed as shown in figure. What will be the coordinates of centre of mass of the system?

Three rods of the same mass are placed as shown in figure. What will be the coordinates of centre of mass of the system?

physics-General

parallel

card img

With Turito Academy.

card img

With Turito Foundation.

card img

Get an Expert Advice From Turito.

Turito Academy

card img

With Turito Academy.

Test Prep

card img

With Turito Foundation.