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## Width small rectangle (b') of Ingot given Ratio of Length(a) to Width(b) of large rectangle Solution

STEP 0: Pre-Calculation Summary
Formula Used
side_b = Side A/ratio
b = a/r
This formula uses 2 Variables
Variables Used
Side A - Side A is an upright or sloping surface of a structure or object that is not the top or bottom and generally not the front or back. (Measured in Meter)
ratio - ratio is fraction of two quantities. (Measured in Hundred)
STEP 1: Convert Input(s) to Base Unit
Side A: 8 Meter --> 8 Meter No Conversion Required
ratio: 2 Hundred --> 2 Hundred No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
b = a/r --> 8/2
Evaluating ... ...
b = 4
STEP 3: Convert Result to Output's Unit
4 Meter --> No Conversion Required
4 Meter <-- Side B
(Calculation completed in 00.016 seconds)

## < 11 Other formulas that you can solve using the same Inputs

Area of a Triangle when sides are given
area = sqrt((Side A+Side B+Side C)*(Side B+Side C-Side A)*(Side A-Side B+Side C)*(Side A+Side B-Side C))/4 Go
Radius of Inscribed Circle
radius_of_inscribed_circle = sqrt((Semiperimeter Of Triangle -Side A)*(Semiperimeter Of Triangle -Side B)*(Semiperimeter Of Triangle -Side C)/Semiperimeter Of Triangle ) Go
Area of Triangle when semiperimeter is given
area_of_triangle = sqrt(Semiperimeter Of Triangle *(Semiperimeter Of Triangle -Side A)*(Semiperimeter Of Triangle -Side B)*(Semiperimeter Of Triangle -Side C)) Go
side b of a triangle
side_b = sqrt(Side A^2+Side C^2-2*Side A*Side C*cos(Angle B)) Go
Perimeter of a Right Angled Triangle
perimeter = Side A+Side B+sqrt(Side A^2+Side B^2) Go
Radius of circumscribed circle
radius_of_circumscribed_circle = (Side A*Side B*Side C)/(4*Area Of Triangle) Go
Perimeter of Triangle
perimeter_of_triangle = Side A+Side B+Side C Go
Perimeter of a Parallelogram
perimeter = 2*Side A+2*Side B Go
Perimeter of a Kite
perimeter = 2*(Side A+Side B) Go
Perimeter of an Isosceles Triangle
perimeter = Side A+2*Side B Go
Area of a Square when side is given
area = (Side A)^2 Go

## < 11 Other formulas that calculate the same Output

side b of a triangle
side_b = sqrt(Side A^2+Side C^2-2*Side A*Side C*cos(Angle B)) Go
Second side of kite given both diagonals
side_b = sqrt(((Diagonal/2)^2)+(symmetry Diagonal-Distance from center to a point)^2) Go
Side of a parallelogram when diagonal and the other side is given
side_b = sqrt(2*(Diagonal 1)^2+2*(Diagonal 2)^2-4*(Side A)^2)/2 Go
Side b of parallelogram when diagonal and sides are given
side_b = sqrt((Diagonal 1^2+Diagonal 2^2-2*Side A^2)/2) Go
Leg b of right triangle given radius & other leg of circumscribed circle of a right triangle
side_b = sqrt(((4)*(Radius)^2)-(Side A)^2) Go
side b of rectangle given radius of the circumscribed circle of a rectangle
side_b = sqrt(((4)*(Radius)^2)-(Side A)^2) Go
Side of parallelogram BC from height measured at right angle form other side
side_b = Height of column1/sin(Angle B) Go
Side of parallelogram BC from height measured at right angle form that side
side_b = Height/sin(Angle A) Go
Side of the parallelogram when the height and sine of an angle are given
side_b = Height/sin(Theta) Go
Second side of kite given perimeter and other side
side_b = (Perimeter/2)-Side A Go
Side of the parallelogram when the area and height of the parallelogram are given
side_b = Area/Height Go

### Width small rectangle (b') of Ingot given Ratio of Length(a) to Width(b) of large rectangle Formula

side_b = Side A/ratio
b = a/r

## What is Ingot?

An ingot is a piece of relatively pure material, usually metal, that is cast into a shape suitable for further processing. In steelmaking, it is the first step among semi-finished casting products. Ingots usually require a second procedure of shaping, such as cold/hot working, cutting, or milling to produce a useful final product. Non-metallic and semiconductor materials prepared in bulk form may also be referred to as ingots, particularly when cast by mold based methods.

## How to Calculate Width small rectangle (b') of Ingot given Ratio of Length(a) to Width(b) of large rectangle?

Width small rectangle (b') of Ingot given Ratio of Length(a) to Width(b) of large rectangle calculator uses side_b = Side A/ratio to calculate the Side B, The Width small rectangle (b') of Ingot given Ratio of Length(a) to Width(b) of large rectangle formula is defined as a straight line connecting two adjacent vertices of small rectangle of Ingot which represents thickness of small rectangle. Where, side_a = Length small rectangle (a'), side_b = Width small rectangle (b') , ratio = Length large rectangle (a)/Width large rectangle (b). Side B and is denoted by b symbol.

How to calculate Width small rectangle (b') of Ingot given Ratio of Length(a) to Width(b) of large rectangle using this online calculator? To use this online calculator for Width small rectangle (b') of Ingot given Ratio of Length(a) to Width(b) of large rectangle, enter Side A (a) and ratio (r) and hit the calculate button. Here is how the Width small rectangle (b') of Ingot given Ratio of Length(a) to Width(b) of large rectangle calculation can be explained with given input values -> 4 = 8/2.

### FAQ

What is Width small rectangle (b') of Ingot given Ratio of Length(a) to Width(b) of large rectangle?
The Width small rectangle (b') of Ingot given Ratio of Length(a) to Width(b) of large rectangle formula is defined as a straight line connecting two adjacent vertices of small rectangle of Ingot which represents thickness of small rectangle. Where, side_a = Length small rectangle (a'), side_b = Width small rectangle (b') , ratio = Length large rectangle (a)/Width large rectangle (b) and is represented as b = a/r or side_b = Side A/ratio. Side A is an upright or sloping surface of a structure or object that is not the top or bottom and generally not the front or back and ratio is fraction of two quantities.
How to calculate Width small rectangle (b') of Ingot given Ratio of Length(a) to Width(b) of large rectangle?
The Width small rectangle (b') of Ingot given Ratio of Length(a) to Width(b) of large rectangle formula is defined as a straight line connecting two adjacent vertices of small rectangle of Ingot which represents thickness of small rectangle. Where, side_a = Length small rectangle (a'), side_b = Width small rectangle (b') , ratio = Length large rectangle (a)/Width large rectangle (b) is calculated using side_b = Side A/ratio. To calculate Width small rectangle (b') of Ingot given Ratio of Length(a) to Width(b) of large rectangle, you need Side A (a) and ratio (r). With our tool, you need to enter the respective value for Side A and ratio and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Side B?
In this formula, Side B uses Side A and ratio. We can use 11 other way(s) to calculate the same, which is/are as follows -
• side_b = sqrt(Side A^2+Side C^2-2*Side A*Side C*cos(Angle B))
• side_b = sqrt(2*(Diagonal 1)^2+2*(Diagonal 2)^2-4*(Side A)^2)/2
• side_b = Height/sin(Theta)
• side_b = Area/Height
• side_b = Height/sin(Angle A)
• side_b = Height of column1/sin(Angle B)
• side_b = sqrt((Diagonal 1^2+Diagonal 2^2-2*Side A^2)/2)
• side_b = sqrt(((4)*(Radius)^2)-(Side A)^2)
• side_b = sqrt(((4)*(Radius)^2)-(Side A)^2)
• side_b = sqrt(((Diagonal/2)^2)+(symmetry Diagonal-Distance from center to a point)^2)
• side_b = (Perimeter/2)-Side A
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