Distance calculator

Math Calculators, Lessons and Formulas

It is time to solve your math problem

mathportal.org

Distance Calculator

This calculator computes the distance between two points in two or three dimensions. It also finds the distance between two places on the world map, which are determined by their longitude and latitude. The calculator shows formulas and all steps.

Distance calculator
Find the distance between two points in plane.
help ↓↓ examples ↓↓ tutorial ↓↓
distance between two points in two dimensions
P1(1,-3) P2(-4,2)
P1(√2,-1/3) P2(√5, 0)
thumb_up 549 thumb_down

Get Widget Code

Distance calculator
Find the distance between two points in space.
help ↓↓ examples ↓↓ tutorial ↓↓
distance between points in three dimensions
P1(1,-3,√2) P2(2/3,-5,2)
thumb_up 549 thumb_down

Get Widget Code

Distance calculator
Distance between two points on earth given in decimal or degree-minute-second form.
help ↓↓ examples ↓↓ tutorial ↓↓
thumb_up 549 thumb_down

Get Widget Code

working...
Examples
ex 1:
Find the distance between the points (–5, -1) and (3, 4).
ex 2:
Find the distance between the points $A = \left(\dfrac{1}{2}, \sqrt{2}, 0\right)$ and $B = \left(-1, \sqrt{3}, -\sqrt{3}\right)$.
Find more worked-out examples in our database of solved problems..

About this calculator

Definition:

The distance between two points in the coordinate plane or space is the line segment length that connects these two points.


Distance in the Coordinate Plane

To find the distance between points A (X1, y1) and B (x2, y2) in a plane, we usually use the Distance formula:

$$ d(A,B) = \sqrt{(x_B - x_A)^2 + (y_B-y_A)^2} $$

Example:

Find distance between points A(3, -4) and B(-1, 3)

Solution:

First we need to identify constant x1, y1, x2 and y2: x1 = 3, y1 = -4, x2 = -1 y2 = 3. Now we can apply above formula:

d(A,B) = √[(x2 - x1)^2 + (y2-y1)^2]
d(A,B) = √[(-1-3)^2 + (3-(-4))^2
d(A,B) = √[(-4)^2 + 7^2]
d(A,B) = √[16+49]
d(A,B) = √65


Distance in the Euclidean Space

The distance between points A (X1, y1, z1) and B (x2, y2, z2) in spcace is given by the formula:

$$ d(A,B) = \sqrt{(x_B - x_A)^2 + (y_B-y_A)^2 + (z_B-z_A)^2} $$

Example:

Find distance between A(2, -1, 5) and B(3, 5, 2)

Solution:

In this example the constants are x1 = 2, y1 = -1, z1 = 5, x2 = 3, y2 = 5, z2 = 2. Now we can apply above formula:

d(A,B) = √[(x2 - x1)^2 + (y2-y1)^2 + (z2-z1)^2]
d(A,B) = √[(3-2)^2 + (5-(-1))^2 + (2-5)^2
d(A,B) = √[(1)^2 + 6^2 + (-3)^2]
d(A,B) = √[1 + 36 + 9]
d(A,B) = √46


Distance between points on sphere

The distance formula for two points on the Earth’s surface is:

d(A,B) = arccos[ sin(lat1) * sin(lat2) +cos(lat1) * cos(lat2) * cos(lon2 - lon1)] ∗6371

where lat1, lon1, lat2, and lon2 are their latitude and longitude coordinates.

Example:

Find distance between A(14.213, -38.481) and B(-2.13, 0.829)

Solution:

In this example the latitudes and longitudes: lat1 = 14.213, lon1 = -38.481, lat2 = -2.13, lon2 = 0.829. After substituting into the formula, we get:

d(A,B) = arccos[ sin(lat1) * sin(lat2) +cos(lat1) * cos(lat2) * cos(lon2 - lon1)] ∗6371
d(A,B) = arccos[ sin(14.213) * sin(-2.13) + cos(14.213) * cos(-2.13) * cos(0.829 + 38.481 )] ∗6371
d(A,B) = arccos[ - 0.2455 * 0.0371 + 0.9696 * 0.9993 * 0.7737] ∗6371
d(A,B) = arccos[ - 0.00910 + 0.7496]
d(A,B) = arccos[ 0.7405 ] ∗6371
d(A,B) = 5867.4

Search our database with more than 300 calculators
362 861 664 solved problems
×
ans:
syntax error
C
DEL
ANS
±
(
)
÷
×
7
8
9
4
5
6
+
1
2
3
=
0
.