You need to know if the sphere is solid or hollow. You also need the "density" in terms of pounds weight per unit volume.
Then Volume = Mass/Density
And Radius = cuberoot[3*Vol/(4*pi)]
There is no equation for the "scale factor" of a sphere. If I assume you to mean how the volume increases with radius then you would use the volume equation for a sphere and calculate volume based on corresponding radii. You could then divide the resultant volumes to give a percentage or factor of how much larger or small one sphere is than another. You'll see that a small change in radius causes a large change in volume due to the volume being a cubic factor of the radius.
Assuming you know the radius of the sphere, use the following function to calculate the surface area: double area_of_sphere(const double& radius) { return(pi * radius * radius * 4); } Note: pi (π) is a global constant defined as follows: const double pi = atan(1)*4; Calculating pi this way ensures the highest possible precision on the runtime hardware. The area calculation is based upon the following formula: 4πr2
On Earth? Grams is a unit of mass, not weight. The weight varies based on gravity. On Earth, it is weighs about 0.24 pounds, almost a quarter of a pound.
A cubic foot of water weighs aprox. 62.42796 pounds, 28316.847 grams, or 28.316847 kilograms. Here is some additional information from http://ga.water.usgs.gov/edu/waterproperties.html * Weight: 62.416 pounds per cubic foot at 32°F * Weight: 61.998 pounds per cubic foot at 100°F * Weight: 8.33 pounds/gallon, 0.036 pounds/cubic inch * Weight: 1679.616 pounds/cubic yard, based on 0.036 pounds/cubic inch * Density: 1 gram per cubic centimeter (cc) at 39.2°F, 0.95865 gram per cc at 212°F
sphere: 0 edgescone: 1 edgerectangular prism: 8 edgescylinder: 0 edgestriangular prism:6 edgespentagonal prism: 10 edgestriangular-based pyramid: 4 edgessquare-based pyramid: 5 edges
The formula for the volume of a sphere is based on the radius of the sphere. It is equal to 4/3 multiplied by pi, multiplied by the radius cubed.
Based on what? If you know the radius, you can use the formula for a sphere - which is a good approximation in the case of Earth and Moon.
There is no equation for the "scale factor" of a sphere. If I assume you to mean how the volume increases with radius then you would use the volume equation for a sphere and calculate volume based on corresponding radii. You could then divide the resultant volumes to give a percentage or factor of how much larger or small one sphere is than another. You'll see that a small change in radius causes a large change in volume due to the volume being a cubic factor of the radius.
Assuming the smaller sphere is the image of the larger sphere after transformation (based on the order of the radii): the scale factor is 4/12 = 1/3
C. =
there is not a particular weight of a volley ball.thats because it is based on how big it is.
Assuming you know the radius of the sphere, use the following function to calculate the surface area: double area_of_sphere(const double& radius) { return(pi * radius * radius * 4); } Note: pi (π) is a global constant defined as follows: const double pi = atan(1)*4; Calculating pi this way ensures the highest possible precision on the runtime hardware. The area calculation is based upon the following formula: 4πr2
Based on the Body Mass Index, your ideal weight would be anywhere between 111 and 146 pounds.
For someone with the height of 5'11, their ideal weight should be between 130-170 pounds. This is based on the BMI chart.
Yes, RADIUS requires port-based authentication.
Every car has a different weight based on the specifications added onto the vehicle. The weight of a 1985 Cutlass Supreme is 3,400 pounds.
your height in inches multiplied by your weight. gives an average range of pounds based on gender. supplied by the Federal Government as a guideline. an indicator of your true health your height in inches multiplied by your weight. gives an average range of pounds based on gender. supplied by the Federal Government as a guideline. an indicator of your true health your height in inches multiplied by your weight. gives an average range of pounds based on gender. supplied by the Federal Government as a guideline. an indicator of your true health.