Float the ball in water and calculate the displacement.
A bowling ball.
There's going to be a greater density in the bowling ball, because its ALOT heavier and isn't hallow like the balloon.
To calculate the density of the bowling ball, use the formula: density = mass/volume. The mass is 3.0 kg and the volume is 0.0050 m³. Thus, the density is 3.0 kg / 0.0050 m³ = 600 kg/m³. Therefore, the density of the bowling ball is 600 kg/m³.
Ten-pin bowling balls usually weigh from about 6 pounds (around 2800 grams) to 16 pounds (about 7200 grams) There are no bowling balls that weigh 200 grams (though such a ball would be leagal as there is no minimum weight) but if there were, the mass of the ball divided by the volume of the ball gives the density. The volume of a standard bowling ball is about 5500 cubic centimeters (I assumed a circumference of 27 inches and calculated from that) 200 / 5500 = 0.036 g/cm3 Compare to the density of air = 0,0012 g/cm3
A soccer ball is hollow and filled with air, which has little density. A bowling ball is solid material of a much greater density. * Because bowling balls have a standard size, about 21.8 cm in diameter, bowling balls weighing less than 5.4 kg (12 lb) will float in water.
The instrument used to measure the diameter of spherical objects is called calipers.
To make a bowling ball float or sink, it's necessary to manipulate its density. To make it float, decrease its density by drilling holes or using materials like foam. To make it sink, increase its density by adding weight to the ball or filling it with denser materials like lead.
yes
Kilograms
Pounds are used to measure the mass of a bowling ball in the US, although the mass of an object that size is usually measured in kilograms in other countries.Pounds (US)
a bowling ball
gram