Shweta Patil
Walchand College of Engineering (WCE), Sangli
Shweta Patil has created this Calculator and 400+ more calculators!
Mona Gladys
St Joseph's College (St Joseph's College), Bengaluru
Mona Gladys has verified this Calculator and 400+ more calculators!

11 Other formulas that you can solve using the same Inputs

Distance between two points P(x1,y1,z1) & Q(x2,y2,z2)
distance between points in 3D space=sqrt((x1 coordinate in 3D space-x2 coordinate in 3D space)^2+ (y1 coordinate in 3D space-y2 coordinate in 3D space)^2+ (z1 coordinate in 3D space-z2 coordinate in 3D space)^2) GO
x coordinate of a point given distance from origin to point and y & z coordinate of that point
x1 coordinate in 3D space= sqrt((distance in 3D space)^2- (y1 coordinate in 3D space)^2- (z1 coordinate in 3D space)^2) GO
y coordinate of a point given distance from origin to point and x & z coordinate of that point
y1 coordinate in 3D space= sqrt((distance in 3D space)^2- (x1 coordinate in 3D space)^2- (z1 coordinate in 3D space)^2) GO
z coordinate of a point given distance from origin to point and x & y coordinate of that point
z1 coordinate in 3D space= sqrt((distance in 3D space)^2- (x1 coordinate in 3D space)^2- (y1 coordinate in 3D space)^2) GO
z coordinate of a point given y coordinate and Perpendicular distance of that point from x axis
z1 coordinate in 3D space=sqrt ((Perpendicular distance from point to axis)^2- (y1 coordinate in 3D space)^2) GO
z coordinate of a point given x coordinate and Perpendicular distance of that point from y axis
z1 coordinate in 3D space=sqrt ((Perpendicular distance from point to axis)^2- (x1 coordinate in 3D space)^2) GO
x coordinate of a point given z coordinate and Perpendicular distance of that point from y axis
x1 coordinate in 3D space=sqrt ((Perpendicular distance from point to axis)^2- (z1 coordinate in 3D space)^2) GO
x coordinate of a point given y coordinate and Perpendicular distance of that point from z axis
x1 coordinate in 3D space=sqrt ((Perpendicular distance from point to axis)^2- (y1 coordinate in 3D space)^2) GO
Perpendicular distance of a point from z axis given x & y coordinate of that point
Perpendicular distance from point to axis= sqrt ((x1 coordinate in 3D space)^2+(y1 coordinate in 3D space)^2) GO
Perpendicular distance of a point from y axis given x & z coordinate of that point
Perpendicular distance from point to axis= sqrt ((x1 coordinate in 3D space)^2+(z1 coordinate in 3D space)^2) GO
Perpendicular distance of a point from x axis given y & z coordinate of that point
Perpendicular distance from point to axis= sqrt ((y1 coordinate in 3D space)^2+(z1 coordinate in 3D space)^2) GO

Distance of a point from origin Formula

distance in 3D space= sqrt((x1 coordinate in 3D space)^2+ (y1 coordinate in 3D space)^2+ (z1 coordinate in 3D space)^2)
D= sqrt((x1)^2+ (y1)^2+ (z1)^2)
More formulas
Distance between two points P(x1,y1,z1) & Q(x2,y2,z2) GO
Perpendicular distance of a point from z axis given x & y coordinate of that point GO
Perpendicular distance of a point from y axis given x & z coordinate of that point GO
Perpendicular distance of a point from x axis given y & z coordinate of that point GO
Projection of a line PQ given direction cosines of line AB making angle with line PQ GO
Projection of a line on x axis GO
Projection of a line on y axis GO
Projection of a line on z axis GO
length of line given projections of that line on x, y & z axis GO
Projection of line on z axis given length of line & direction ratio of line w.r.to z axis GO
Projection of line on y axis given length of line & direction ratio of line w.r.to y axis GO
Projection of line on x axis given length of line & direction ratio of line w.r.to x axis GO
length of line given direction ratio and projection of line w.r.to x axis GO
length of line given direction ratio and projection of line w.r.to y axis GO
length of line given direction ratio and projection of line w.r.to z axis GO
⊥ distance from the origin to the plane given direction cosine w.r.to z axis GO
⊥ distance from the origin to the plane given direction cosine w.r.to y axis GO
⊥ distance from the origin to the plane given direction cosine w.r.to x axis GO
⊥ distance from the origin to the plane given direction cosines of normal from origin to plane GO
Distance of a point from plane GO
Distance between plane in normal formal and a point GO
distance between 2 || planes of form ax + by + cz + d1 = 0 & ax + by + cz + d2 = 0 GO
radius of sphere of form (x – a)2 + (y – b)2 + (z – c)2 = r2 GO
radius of sphere of form x2 + y2 + z2 + 2ux + 2vy + 2wz + d = 0 GO
Radius of sphere of form x2+y2+z2+(2u/a)x+(2v/a)y+(2w/a)z+ d/a=0 GO
D in std equation of a plane given dist. b/w || planes,D.R.s taking dist. -ve GO

What is coordinate system in 3D space?

The three mutually perpendicular lines in a space which divides the space into eight parts and if these perpendicular lines are the coordinate axes, then it is said to be a coordinate system.

How to Calculate Distance of a point from origin?

Distance of a point from origin calculator uses distance in 3D space= sqrt((x1 coordinate in 3D space)^2+ (y1 coordinate in 3D space)^2+ (z1 coordinate in 3D space)^2) to calculate the distance in 3D space, Distance of a point from origin is defined as a length measured from origin to a point on 3 dimensional space. distance in 3D space and is denoted by D symbol.

How to calculate Distance of a point from origin using this online calculator? To use this online calculator for Distance of a point from origin, enter x1 coordinate in 3D space (x1), y1 coordinate in 3D space (y1) and z1 coordinate in 3D space (z1) and hit the calculate button. Here is how the Distance of a point from origin calculation can be explained with given input values -> 3.464102 = sqrt((2)^2+ (2)^2+ (2)^2).

FAQ

What is Distance of a point from origin?
Distance of a point from origin is defined as a length measured from origin to a point on 3 dimensional space and is represented as D= sqrt((x1)^2+ (y1)^2+ (z1)^2) or distance in 3D space= sqrt((x1 coordinate in 3D space)^2+ (y1 coordinate in 3D space)^2+ (z1 coordinate in 3D space)^2). x1 coordinate in 3D space is a point on x axis in 3 dimensional space corresponding to point P, y1 coordinate in 3D space is a point on y axis in 3 dimensional space corresponding to point P and z1 coordinate in 3D space is a point on z axis in 3 dimensional space corresponding to point P.
How to calculate Distance of a point from origin?
Distance of a point from origin is defined as a length measured from origin to a point on 3 dimensional space is calculated using distance in 3D space= sqrt((x1 coordinate in 3D space)^2+ (y1 coordinate in 3D space)^2+ (z1 coordinate in 3D space)^2). To calculate Distance of a point from origin, you need x1 coordinate in 3D space (x1), y1 coordinate in 3D space (y1) and z1 coordinate in 3D space (z1). With our tool, you need to enter the respective value for x1 coordinate in 3D space, y1 coordinate in 3D space and z1 coordinate in 3D space and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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