I believe that the weight measurement designated mg corresponds to the ml, so it would be the same
Used the equation Density=Mass/Volume to solve this one.
Density = mass/volume let us say the mass of the steel ball and the ship are same. but the steel ball is fully enclosed, a tight spherical volume, where as the ship is a hollow, occupies more volume (multiple times) as that of the spherical ball. Considering the first equation, u know well the density of steel ball is much higher than the steel ship.
0.0125
🤷‍♂️
a large (and i mean big) beaker filled with waterpush the basket ball in the water till your finger barely touches the watermeasure how many mL's were added and the amount should be the volume
yes, a bouncy ball has volume and mass.
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.
The ball's volume is 0.25 L
the yellow ball. density is mass / volume. 100/300= .33333 50/15=3.33333 3.33333>.33333
The black ball has greater mass. Mass is the product of volume and density.
mass x velocity = momentum
Used the equation Density=Mass/Volume to solve this one.
A tree, a tennis ball, a tiger, you and ... me.
Examples: mass, diameter, volume, hardness, density, etc.
Momentum. Momentum is the mass of an object multiplied by its velocity. This is expressed as: p=mv where p is the momentum, m is the mass, and v is the velocity. Also, kinetic energy, as that is 1/2 m*v^2.
Yes, it does. Actually, i don't think it does. It should make the ball heavier. A ball typically has a constant volume. Adding more air into it doesn't change the volume, but the pressure increases, and you are adding mass into the ball. Adding mass into the ball does make it heavier, and it becomes denser as well. Of course, the change in mass is quite small - you'd have to pump 1.3m3 of air into the ball to increase its mass by 1 kg
Determine the mass, and then put the ball bearing in a known amount of water, and see what the increase in volume is (using cm3 or mm). Then do Mass divided by Displased Water, and you have density.