If you are looking for the answer of distance how to find, you’ve got the right page. We have approximately 10 FAQ regarding distance how to find. Read it below.

## How will you find the distance between a and b

**Ask: **How will you find the distance between a and b

|a-b|

Absoulte value will make the value positive. For example, if a was 1 and b was 2, it would be |1-2|=1.

## How did you find the distance of AB?

**Ask: **How did you find the distance of AB?

**Answer:**

To calculate the distance AB between point A(x1,y1) and B(x2,y2) , first draw a right triangle which has the segment ¯AB as its hypotenuse. Since AC is a horizontal distance, it is just the difference between the x -coordinates: |(x2−x1)| . Similarly, BC is the vertical distance |(y2−y1)| .

**Explanation:**

I hope it helps

## how to find acceleration with velocity and distance?

**Ask: **how to find acceleration with velocity and distance?

**Answer:**

Calculating acceleration involves dividing velocity by time — or in terms of SI units, dividing the meter per second [m/s] by the second [s]. Dividing distance by time twice is the same as dividing distance by the square of time. Thus the SI unit of acceleration is the meter per second squared

**Explanation:**

## Need how to find the distance of angle of elevation.

**Ask: **Need how to find the distance of angle of elevation.

There are so many distance of angle of elevation but the angle of elevation lies at the **lower part**. We have 6 trigonometric functions:

1. Sine = [tex]frac{O}{H}[/tex]

2. Cosine = [tex]frac{A}{H}[/tex]

3. Tangent = [tex]frac{O}{A}[/tex]

**Inverse:**

1. Cosecant = [tex]frac{H}{O}[/tex]

2. Secant = [tex]frac{H}{A}[/tex]

3. Cotangent = [tex]frac{A}{O}[/tex]

## How to find the velocity,time,speed,distance

**Ask: **How to find the velocity,time,speed,distance

**Answer:**

Velocity is calculated by measuring the distance covered in a given direction per unit of time. Mathematically, velocity = distance/time. Multiplying by time on both sides of that formula yields the formula for distance: distance = time * velocity

## how to find the distance using work and force

**Ask: **how to find the distance using work and force

**Answer:**

Work can be calculated with the equation WORK: **Force **times **Distance**. The SI unit for work is the joule(J), or Newton • meter(N•m). One joule equals the amount of work that is done when 1 N of force moves an object over a distance of 1 m.

**Note:**

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## how will you use the number line in finding the

**Ask: **how will you use the number line in finding the distance?

**Answer: A simple way to calculate the distance between numbers on a number line is to count every number between them. A faster way is to find the distance by taking the absolute value of the difference of those numbers. For example, the absolute values of 4 and -4, or |4| and |-4|, are both 4**

## how to find the velocity with angle and distance

**Ask: **how to find the velocity with angle and distance

### If the initial of the velocity is Vo, and the angle is a, then the vertical component of the velocity is Vy=Vo[sin(a)], and the horizontal component is Vx= Vo[cos(a)]. You need to find how long it takes for the object to go up, slow due to acceleration of gravity, and then fall back to the ground.

## How to find the distance of a chord from the

**Ask: **How to find the distance of a chord from the center?

**correct me if im wrong and i hope this helps 😀**

**and hi im new <3**

**to find the length of the chord, and then we can use L = 2sqrt(r^2 – d^2) to find the perpendicular distance between the chord and the center of the circle**

**EXAMPLE:**

**L = 2rsin(theta/2) **

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**L = 2(9)sin(60/2) **

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**L = 18sin(30) **

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**L = 9 **

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**The length of the chord is 9 and so **

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**L = 2sqrt(r2 – d2) **

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**9 = 2sqrt(92 – d2) **

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**4.5 = sqrt(81 – d2) **

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**20.25 = 81 – d2 **

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**d2 = 60.75 **

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**d = sqrt(60.75) **

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**d is approximately 7.79**

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** The distance between the chord and the center of the circle is about 7.79.**

## how to find initial distance??

**Ask: **how to find initial distance??

**Step-by-step explanation:**

For example: An object with a final velocity of 3 meters (9.8 ft) traveled south for 15 seconds and covered a distance of 45 meters (147.6 ft). …

Divide distance by time. ( …

Multiply that value by 2. …

Subtract final velocity from the product. …

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