It depends on the size of the rock.
The answer depnds on the density of each rock. If they are different denities thenthere is a chance that the 1mL rock may have more mass. If they have the same density then the 4mL rock will have more mass
The mass of the rock would be 9.55 kg. This is calculated by dividing the weight of the rock (94 N) by the acceleration due to gravity (9.81 m/s^2).
The rock's mass on earth will be 5kg (mass = force in newtons / 9.807)
Two things that have mass are an apple and a rock.
A balance scale can be used to compare the mass of a large rock to the mass of two wooden blocks. Place the rock on one side of the scale and the two blocks on the other side. By observing which side tips down, you can determine which has more mass.
The mass of a rock depends on the type of rock studied. Heavier rocks generally will have a higher mass.
Yes. Kilogram is the unit of mass.
The volume of the rock is the amount of water it displaces, 250ml. Considering that 1ml of water has a mass of 1 mg, the mass of the rock is 5.63 x 250gm = 1,407.5mg.
It depends on the size of the rock.
The rock with a volume of 4ml has more mass, assuming all other factors are the same. Mass is directly proportional to volume, so a rock with a larger volume will have more mass.
Critical Mass - Catholic rock - was created in 1996.
You can use a balance or scale to find the mass of a rock. Place the rock on the balance or scale and record the reading to determine its mass.
a rock in earth
The answer depnds on the density of each rock. If they are different denities thenthere is a chance that the 1mL rock may have more mass. If they have the same density then the 4mL rock will have more mass
The unit of mass of a rock is typically measured in kilograms (kg) or grams (g). A common tool to measure the mass of a rock is a balance scale or a digital scale.
the layer of rock that comprises 67% of earths mass
The mass of ice is typically less dense than rock, so ice typically has a lower mass compared to an equal volume of rock. The exact mass of ice and rock would depend on the volume and density of each material.