answersLogoWhite

0

3.1459/it

2556998512545123113

User Avatar

Wiki User

14y ago

What else can I help you with?

Continue Learning about Natural Sciences

Why leaving your solution in terms of pi is the most accurate solution?

Leaving your solution in terms of pi (π) is the most accurate approach because π is an irrational number, meaning it cannot be precisely represented as a finite decimal or fraction. When calculations involving circles or circular shapes are performed, expressing results in terms of π retains the exact value without introducing rounding errors. This ensures that any further calculations based on this result remain accurate, preserving the integrity of the mathematical relationships involved.


What calculate the surface area of a sphere with a radius of 7 meters.?

To calculate the surface area of a sphere, you can use the formula ( A = 4\pi r^2 ), where ( r ) is the radius. For a sphere with a radius of 7 meters, the calculation would be ( A = 4\pi (7^2) = 4\pi (49) = 196\pi ). Approximating (\pi) as 3.14, the surface area is approximately ( 615.44 ) square meters.


How many earths can fit in vv cephei?

It is estimated that 2000000000 Earths could fit inside VV Cephei How do we know? It is known that one million Earths could fit inside the Sun, and VV Cephei is estimated at 2000 times bigger than the Sun.


Should a number be rounded if ellipses are used to indicate that the number continues?

(an example - not an answer) Which is correct? the 2nd or 3rd number for Pi?: 1. Pi = 3.141592653589793238 (more Pi) 2. Pi = 3.141592654... 3. Pi = 3.141592653...


Is the volume formula universal for all the figures?

No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3 No because, Sphere : (4 * pi * cube of the radius)/3 Hemisphere: (2 * pi * cube of the radius)/3 Cylinder: pi * (square of the base radius) * height Cone: (pi * square of base radius * height)/3

Related Questions

This ancient greek mathematician estimated the most accurate calculation of pi?

Archemedes


What ancient Greek mathematician estimated the most accurate calculation of pi?

Archimedes


What ancient Greek mathematician estimated the most accurate calculation of pi of his time?

Archimedes


Ancient Greek mathematician estimated the most accurate calculation of pi of his times?

Archimedes


Who is the ancient greek mathematican that estimated the most accurate calculation of pi of his times?

Archimedes


Who was the famous mathematician who estimated the most accurate calculation of pi of his times?

M.C. Ethster


Ancient greek mathematician estimated the most accurate calculation of pi of his time?

Archimedes, wait i did just kidding


Most accurate calculation of pi?

The most accurate calculation of pi is currently estimated to be around 31.4 trillion decimal places. This calculation was achieved using supercomputers and advanced mathematical algorithms. However, for most practical purposes, using pi to just a few decimal places (3.14159) is sufficient.


Ancient Greek mathematician who estimated the most accurate calculation of pi in his time?

Archimedes no wait it was Hercules, just kidding it wasArchimedes.


Who ancient Greek mathematician estimated the most accurate calculation of pi of his time?

Archimedes no wait it was Hercules, just kidding it wasArchimedes.


What mathematicain estimated the most accurate calculation of pi?

In recent history (the last decade) most of the records for the calculation of pi to high precision have been performed by Yasumasa Kanada working with his research team at the Information Technology Center of the University of Tokyo. The current record is 1.2411 trillion digits calculated in 2002.


What ancient greek mathematician sestimated the most accurate calculation of pi of his time?

Archimedes