Very many things. An ant, for example.
A pinball.
Yes, 5.04 is smaller than 5.4 is.
0.01 is smaller than 0.2
1.0 is bigger than 0.1.
It is smaller.
No. A milligram is a thousand times smaller than a gram, and a gram is a thousand times smaller than a kilogram. Then, a milligram is a million times smaller than a kilogram.
Actually the smaller ball would have more accleration because the smaller ball weighs less.....
yes because a smaller ball doesnt have that much wait to carry than a bigger ball
A cannon ball.
Yes if you are smaller than size 0 you can get a formal ball grown ..
A cannon ball traveled at speeds up to and or exceeding 100 miles per hour this depended on how well the cannon was packed how much powder was charged and the degree the cannon barrel was angled many soldiers packed two balls connected by a large chain this increased the effectiveness of the cannon others where loaded with many smaller balls like buckshot in a shotgun.
a cannon ball
The cannon (also called artillery or gun or field piece) has no acceleration. It's just a stationary tube; a gun barrel.The cannon ball (also called a shell or projectile) travels at a speed determined by it's propellent charge; interior of the gun tube (rifled or smoothbore); length of gun tube; and the caliber of the weapon (gun size).As a rule: Larger projectiles travel slower; rifled barrels shoot slower projectiles; shorter gun tube have shorter ranges; smaller powder charges (propellent) travel smaller distances.I'm sorry, but the cannon does accelerate in the opposite direction of the cannon ball. This is called recoil. Old cannons simply rolled backwards as a result of recoil and had to be manually pulled forward again and reaimed. Modern artillery pieces all use recoil absorbing mechanisms that permit the barrel to recoil without moving the carriage, then automatically reextend the barrel.To answer the original question, the cannon is heavier and the ball is lighter, therefor the ball accelerates faster than the cannon.
the size of the cannon ball depends on the size of the cannon. civil war cannons had cannon balls about the size of a child's head, aprox 30cm across
Yes, both have the same energy, but because cannon is heavier the cannon ball gets more momentum and thus greater velocity.
cannon ball
Smaller than cricket ball and in circular shape.
No. If the density of the item is less, the mass may be less, even if the object is larger. Cannon ball and a beach ball. Low density beach ball has far less mass than the VERY dense cannon ball, even though the beach ball is larger.