Maths-

General

Easy

Question

Vertices of a variable triangle are (3, 4) $left parenthesis 5 blank c o s blank theta comma blank 5 blank s i n blank theta right parenthesis$ and $left parenthesis 5 blank s i n blank theta minus 5 blank c o s blank theta right parenthesis$ where $theta element of R blank$ Locus of its orthocenter is

$(x + y - 1)^{2} + (x - y - 7)^{2} = 100$
$(x + y - 7)^{2} + (x - y - 1)^{2} = 100$
$(x + y - 7)^{2} + (x + y - 1)^{2} = 100$
$(x + y - 7)^{2} + (x - y + 1)^{2} = 100$

The correct answer is: $left parenthesis x plus y minus 7 right parenthesis to the power of 2 end exponent plus left parenthesis x minus y plus 1 right parenthesis to the power of 2 end exponent equals 100$

Here $left parenthesis 00 right parenthesis$ is the circumcentre
If $G equals left parenthesis h comma blank k right parenthesis$ be the centroid of triangle
$3 h equals 3 plus 5 left parenthesis blank c o s blank theta plus blank s i n blank theta right parenthesis comma$ $3 k equals 4 plus 5 left parenthesis blank s i n blank theta minus blank c o s blank theta right parenthesis$
If $H left parenthesis alpha comma beta right parenthesis$ be the orthocentre then OG: $G H equals 1$ : $2 equals alpha equals 3 h comma$ $beta equals 3 k$
$c o s blank theta plus blank s i n blank theta equals fraction numerator alpha minus 3 over denominator 5 end fraction comma$ $blank s i n blank theta minus blank c o s blank theta equals fraction numerator beta minus 4 over denominator 5 end fraction$
$s i n blank theta equals fraction numerator alpha plus beta i minus 7 over denominator 10 end fraction comma blank c o s blank theta equals fraction numerator alpha minus beta plus 1 over denominator 10 end fraction$
Locus of $left parenthesis alpha comma beta right parenthesis$ is $left parenthesis x plus y minus 7 right parenthesis to the power of 2 end exponent plus left parenthesis x minus y plus 1 right parenthesis to the power of 2 end exponent equals 100$

If (0,0), (a, 2), (2, b) form the vertices of an equilateral triangle, where a and b not lie between 0 and 2, then the value of 4(a $plus$ b)‐ab equals

Maths-General

General

Maths-

The lines $a x plus b y plus left parenthesis a alpha plus b right parenthesis equals 0 comma b x plus c y plus left parenthesis b alpha plus c right parenthesis equals 0$ and $left parenthesis a alpha plus b right parenthesis x plus left parenthesis b alpha plus c right parenthesis y equals 0$ are concurrent if

Maths-General

General

Maths-

Equation of the line perpendicular to 4x + 7y + 9 = 0 and such that the triangle formed by it with the coordinates axes forms an area of 3.5 sq. units is

Maths-General

General

Maths-

(0, 0) is the foot of the perpendicular from (4, 2) on a straight line. The equation of the line is

Maths-General

General

Maths-

The orthocentre of the triangle having vertices at (2, 3) (2, 5) (4, 3) is

Maths-General

General

Maths-

Each side of square is length 5. The centre of square is (3, 7) and one of the diagonals is parallel to y = x. Then the coordinates of its vertices are

Therefore, the coordinates of vertices of square are (1, 5) (1, 9) (5, 9) (5, 5).

Each side of square is length 5. The centre of square is (3, 7) and one of the diagonals is parallel to y = x. Then the coordinates of its vertices are

Maths-General

Therefore, the coordinates of vertices of square are (1, 5) (1, 9) (5, 9) (5, 5).

General

Maths-

The sides of a rhombus ABCD are parallel to the lines y = x + 2; y = 7x + 3. If the diagonals of the rhombus intersect at the point (1, 2) and the vertex A is on y – axis then A =

Maths-General

General

Maths-

The quadrilateral formed by the lines $square root of 3 x end root$ + y = 0; x + $square root of 3$ y = 0; $square root of 3$ x + y = 1; x + $square root of 3$ y + 1 = 0 is

Maths-General

General

Maths-

If 7x – y + 3 = 0; x + y – 3 = 0 are tow sides of an isosceles triangle and the third side passes through (1, 0) then the equation of the third side is

So here we used the concept of the triangles, and the equations of the lines to solve this problem. We know that the equation of a straight line in slope-intercept form is given as y = mx+c, so we used that here. So the equation of the third side is x + 3y - 1 = 0.

If 7x – y + 3 = 0; x + y – 3 = 0 are tow sides of an isosceles triangle and the third side passes through (1, 0) then the equation of the third side is

Maths-General

General

Maths-

All points lying inside the triangle formed by the points (1, 3) (5, 0) and (-1, 2) satisfy

Maths-General

General

Physics-

In Young's double slit experiment with a monochromatic light of wavelength $4000 A to the power of 0 end exponent$ , the fringe width is found to be 0.4 mm. When the slits are now illuminated with a light of wavelength $5000 A to the power of 0 end exponent$ the fringe width will be

Physics-General

General

Physics-

The magnetic field due to a current carrying square loop of side a at a point located symmetrically at a distance of a/2 from its centre (as shown is)

Physics-General

General

Physics-

A long wire carrying current i is bent to form a right angle as shown in figure .Then magnetic induction at point P on the bisector of this angle at a distance r from the vertex is

Physics-General

General

Physics-

Find the magnetic induction of the field at the point O of a loop with current I, whose shape is illustrated in fig. the radius a and the side b are known

Physics-General

General

Physics-

Find the magnetic field at P due to the arrangement shown

Physics-General

Have a query? Ask a Tutor!!

Can’t find what you’re looking for?

Vertices of a variable triangle are (3, 4) and where Locus of its orthocenter is

The correct answer is:

Here is the circumcentreIf be the centroid of triangle If be the orthocentre then OG: : Locus of is

Related Questions to study

If (0,0), (a, 2), (2, b) form the vertices of an equilateral triangle, where a and b not lie between 0 and 2, then the value of 4(ab)‐ab equals

If (0,0), (a, 2), (2, b) form the vertices of an equilateral triangle, where a and b not lie between 0 and 2, then the value of 4(ab)‐ab equals

The lines and are concurrent if

The lines and are concurrent if

Equation of the line perpendicular to 4x + 7y + 9 = 0 and such that the triangle formed by it with the coordinates axes forms an area of 3.5 sq. units is

Equation of the line perpendicular to 4x + 7y + 9 = 0 and such that the triangle formed by it with the coordinates axes forms an area of 3.5 sq. units is

(0, 0) is the foot of the perpendicular from (4, 2) on a straight line. The equation of the line is

(0, 0) is the foot of the perpendicular from (4, 2) on a straight line. The equation of the line is

The orthocentre of the triangle having vertices at (2, 3) (2, 5) (4, 3) is

The orthocentre of the triangle having vertices at (2, 3) (2, 5) (4, 3) is

Each side of square is length 5. The centre of square is (3, 7) and one of the diagonals is parallel to y = x. Then the coordinates of its vertices are

Each side of square is length 5. The centre of square is (3, 7) and one of the diagonals is parallel to y = x. Then the coordinates of its vertices are

The sides of a rhombus ABCD are parallel to the lines y = x + 2; y = 7x + 3. If the diagonals of the rhombus intersect at the point (1, 2) and the vertex A is on y – axis then A =

The sides of a rhombus ABCD are parallel to the lines y = x + 2; y = 7x + 3. If the diagonals of the rhombus intersect at the point (1, 2) and the vertex A is on y – axis then A =

The quadrilateral formed by the lines + y = 0; x + y = 0; x + y = 1; x + y + 1 = 0 is

The quadrilateral formed by the lines + y = 0; x + y = 0; x + y = 1; x + y + 1 = 0 is

If 7x – y + 3 = 0; x + y – 3 = 0 are tow sides of an isosceles triangle and the third side passes through (1, 0) then the equation of the third side is

If 7x – y + 3 = 0; x + y – 3 = 0 are tow sides of an isosceles triangle and the third side passes through (1, 0) then the equation of the third side is

All points lying inside the triangle formed by the points (1, 3) (5, 0) and (-1, 2) satisfy

All points lying inside the triangle formed by the points (1, 3) (5, 0) and (-1, 2) satisfy

In Young's double slit experiment with a monochromatic light of wavelength , the fringe width is found to be 0.4 mm. When the slits are now illuminated with a light of wavelength the fringe width will be

In Young's double slit experiment with a monochromatic light of wavelength , the fringe width is found to be 0.4 mm. When the slits are now illuminated with a light of wavelength the fringe width will be

The magnetic field due to a current carrying square loop of side a at a point located symmetrically at a distance of a/2 from its centre (as shown is)

The magnetic field due to a current carrying square loop of side a at a point located symmetrically at a distance of a/2 from its centre (as shown is)

A long wire carrying current i is bent to form a right angle as shown in figure .Then magnetic induction at point P on the bisector of this angle at a distance r from the vertex is

A long wire carrying current i is bent to form a right angle as shown in figure .Then magnetic induction at point P on the bisector of this angle at a distance r from the vertex is

Find the magnetic induction of the field at the point O of a loop with current I, whose shape is illustrated in fig. the radius a and the side b are known

Find the magnetic induction of the field at the point O of a loop with current I, whose shape is illustrated in fig. the radius a and the side b are known

Find the magnetic field at P due to the arrangement shown

Find the magnetic field at P due to the arrangement shown

With Turito Academy.

With Turito Foundation.

Get an Expert Advice From Turito.

Turito Academy

With Turito Academy.

Test Prep

With Turito Foundation.

Courses

Quick Links

The correct answer is: $left parenthesis x plus y minus 7 right parenthesis to the power of 2 end exponent plus left parenthesis x minus y plus 1 right parenthesis to the power of 2 end exponent equals 100$

If (0,0), (a, 2), (2, b) form the vertices of an equilateral triangle, where a and b not lie between 0 and 2, then the value of 4(a $plus$ b)‐ab equals

If (0,0), (a, 2), (2, b) form the vertices of an equilateral triangle, where a and b not lie between 0 and 2, then the value of 4(a $plus$ b)‐ab equals

The quadrilateral formed by the lines $square root of 3 x end root$ + y = 0; x + $square root of 3$ y = 0; $square root of 3$ x + y = 1; x + $square root of 3$ y + 1 = 0 is

The quadrilateral formed by the lines $square root of 3 x end root$ + y = 0; x + $square root of 3$ y = 0; $square root of 3$ x + y = 1; x + $square root of 3$ y + 1 = 0 is

In Young's double slit experiment with a monochromatic light of wavelength $4000 A to the power of 0 end exponent$ , the fringe width is found to be 0.4 mm. When the slits are now illuminated with a light of wavelength $5000 A to the power of 0 end exponent$ the fringe width will be

In Young's double slit experiment with a monochromatic light of wavelength $4000 A to the power of 0 end exponent$ , the fringe width is found to be 0.4 mm. When the slits are now illuminated with a light of wavelength $5000 A to the power of 0 end exponent$ the fringe width will be