Less
No gravity
It weighs about 7 kilograms. The heaviest legal bowling ball weighs 16 lbs; an 11 kg ball would weigh 24.2 lbs.
A 16 pound bowling ball on Earth would weight approximately 6 pounds on Mercury.
16 pounds is the maximum weight of a bowling ball that can be used in sanctioned events.
Yes and no: the ball would weigh more (yes) but they don't make balls that big (no).
Definitely YES! It hurts trying to kick it down an alley so therefore attempting to kick it into space would hurt and would probably result in hospitalization for a broken foot. It is also impossible to kick a bowling ball into space.
A bowling ball would be considered a sphere.
Manufacturers website or you can just weigh it on your bathromm scale.
Neither. The maximum weight for a bowling ball is approximately 7.25 kilograms or 7250 grams.
obviously a bowling ball without holes, how could something with less material in it weigh more
In deep space, free of other gravitational influences, theoretically, yes. All objects with mass have "gravity" -- as long as the bowling ball contains more mass, there ought to be a particular velocity at which a golf ball would orbit it.
A bowling ball is made up of a plastic outercore
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