with a measuring tape
Volume in cubic units = 4/3*pi*radius3
What is the volume of sphere if diameter is 4 inches
You find the length and height of the shape, them you find the volume
7.07
Divide the diameter by 2 to get the radius. Then use the formula for the volume of a sphere.
You cannot find the volume of a square. You can find the volume of a cube, which is finding the length of one edge of the cube and taking that to the third power, or cubing it.
Volume of a ball or sphere = 4/3*pi*radius3 and measured in cubic units
Yes just subtract the volume of the ball from the volume you measure of the liquid.
Volume of a ball or sphere measured in cubic units = 4/3*pi*radius3
thanks
2/3*r³π
4, 6, and 12
Assuming that the ball is spherical in shape, the volume of a sphere is given by the formula(4/3)(pi)(radius)3 cubic unitsSource: www.icoachmath.com
Volume formula for a sphere is 4/3*π*r3 so volume of ball with radius of 4.6 cm is 4/3*3.14159*(4.6cm)3 = 407.72 cm3
Volume = 4/3*pi*radius3 measured in cubic cm
you can do a simple easy experiment to find the volume of a ping ball (water displacment). Place the ping pong ball in an amount of water with a known volume in a SI unit of volume (mL, liters). Notice the water has risen. Subtract the vslue of the original water from the new value of the water. This is the ping pong's volume.
Yes, it's just a matter of subtraction. You are correct. You know how much space that two objects occupy, so you can subtract the space that one takes up to find the volume of the other.
You need two things. 1. That fact that density X volume = mass Snow density varies. Some snow if very compact and some is light and fluffy. The range of density of snow is around 100-500 kg per cubic meter. 2.Now find the volume of each "ball" that makes up your snowman by using the formula that the volume of each ball using V=(4/3)πr^3 where r is the radius of the ball. After you find the volume of each ball, multiply by the density and that is the mass of that ball. Do it for all 3 and you the the snowman's mass.