Put an exact amount of water in a measuring cup. Drop in a Golf ball. The increase in water level equals the volume of the golf ball, assuming the ball doesn't float.
For example, 200mL before ball. 280ml after ball dropped in. Therefore volume equals 40ml or 40 Cubic Centimeters.
Radius of the golf ball is: 0.84 inches(which is standard)...Calculate the volume of the ball...by formula.. [4*3.14*(.84)^3]/3.Calculate the volume of school bus by using formula, length*breadth*height.Now Calculate the volume of a seat by using formula,volume of Base+volume of Back +volume of all legs(i.e. cylinder).Use careful mensuration while Calculating Effective Empty volume----Effective Empty volume = (total volume of bus- volume of ALL the seats) of Bus.Now to find the total number of balls:Total number of Balls = (Effective Empty Volume / Volume of a golf ball)Note: Golf balls are rough spheres. Two adjacent golf balls make contact at only one point on their surface - not across the ENTIRE surfaces. Therefore, the volume occupied by a pile (or a schoolbus full) of golf balls is GREATER than the sum of the volume of each individual ball.We might approxmiate the "EFFECTIVE" volume of one golf ball, therefore, by calculating the volume of a simple cube with side lengths the same as the diameter of the golf ball.The number of golf balls that fits inside a bus therefore will be FEWER than that calculated by the method above, because the "EFFECTIVE" volume of adjacent golf balls is GREATER than the sum of the balls themselves.
15625 golf balls will fit in 1 cubic meter. Volume of a golf ball is approximately 40 cubic cm. Since 1 cubic meter has 1,000,000 cubic cm, the number of golf balls purely on voume calculation would be 25,000. However, there would be a lot of empty space between golf balls and hence significant volume will be used by empty space. The diameter of a golf ball is 4 cms. Based on that you should be able to fit 25 balls across length, width and height making the total number of golf balls to be 25 X 25 X 25 = 15,625.
Let's assume that your golf ball is 1.680 inches in diameter - the smallest size golf ball allowed in certain golfing associations. Then we know that the circumference of the golf ball will be the distance it would roll in one complete rotation. Circumference = pi * diameter Circumference = 3.14 * 1.680 in Circumference = 5.2752 inches = the distance that this particular golf ball would roll
A Golf Ball
An odd number of dimples would render the ball asymmetrical.
Yes, but only if there is air, dust and other molecular scale debris attached to the ball. In a perfect universe, where nothing but the ball enters the water, then the volume would be exactly the same as that of the sphere.
Volume = 4/3*pi*radius3 measured in cubic cm
The volume of the golf ball can be calculated using the displacement of water (30 cm^3). The density can then be calculated using the formula density = mass/volume. By substituting the mass of the ball (33g) and the calculated volume into the formula, you can find the density of the golf ball.
That would be a golf ball.
deep it in water like archemides
No, the warmer golf ball would bounce higher.
2.5 cubic inches
its a golf ball
They most be limited flight or floating golf balls. This is because a real golf ball will always sink. You would never find a real golf ball floating.
Volume of Golf Ball = 4/3 π(.84)^3 = 4/3 π(.5927) = 4/3 (1.862) = 7.4481/3 = 2.4827 inches ^3 Volume of Sun = 4/3 π(27381889751.04)^3 = 4π(20530061600000000000000000000000)/3 = 4π68433538.67 = 4(214990302.3) = 859963609.2 inches ^3 Volume of Sun / Volume of Golf Ball = 859963609.2 / 2.4827 = 346382409.96 Golf Balls
A golf ball would bounce higher than a basket ball.
Radius of the golf ball is: 0.84 inches(which is standard)...Calculate the volume of the ball...by formula.. [4*3.14*(.84)^3]/3.Calculate the volume of school bus by using formula, length*breadth*height.Now Calculate the volume of a seat by using formula,volume of Base+volume of Back +volume of all legs(i.e. cylinder).Use careful mensuration while Calculating Effective Empty volume----Effective Empty volume = (total volume of bus- volume of ALL the seats) of Bus.Now to find the total number of balls:Total number of Balls = (Effective Empty Volume / Volume of a golf ball)Note: Golf balls are rough spheres. Two adjacent golf balls make contact at only one point on their surface - not across the ENTIRE surfaces. Therefore, the volume occupied by a pile (or a schoolbus full) of golf balls is GREATER than the sum of the volume of each individual ball.We might approxmiate the "EFFECTIVE" volume of one golf ball, therefore, by calculating the volume of a simple cube with side lengths the same as the diameter of the golf ball.The number of golf balls that fits inside a bus therefore will be FEWER than that calculated by the method above, because the "EFFECTIVE" volume of adjacent golf balls is GREATER than the sum of the balls themselves.