The answer depends on the density of the material being loaded. 12500 MT of steel bits will require fewer containers than 12500 MT of polysterene (styrofoam) beads.
Partly fill a container with a liquid and mark its level on the side of the container. Then submerge the irregular object in the liquid and mark the new level. The volume of the irregular object is the difference in the two volumes marked in the container. Obviously, you need to ensure that the object is not soluble in the liquid. A variation on this method is to start with a container that is on a collecting tray. Fill the container to the brim, then gently insert the object and measure the liquid that overflows into the tray. This method requires only one measurement of the liquid's volume but it also requires great care to ensure that the object is submerged gently and that the meniscus (if any) is the same before and after. Not easy to do.
The answer depends on how large the prism is.
216 are.
Volume of a sphere in cubic units = 4/3piradius cubed
Gases will expand to fill their containers.
yes
A gas will completely fill whatever container it's in as it will diffuse until it's concentration is the same throughout the container.
645divided by 21 equals 30.714. Hence, you can fill completely 30 such containers and 71.4% of the 31st container will be filled with water. Answer two If fill means completely fill, than you can fill 30 containers.
That would be 16.6 tablespoons
16 halfpint cartons of water are needed to fill the gallon container
Yes, liquids can fill containers as long as the container can hold the volume of the liquid. The shape and size of the container will determine how the liquid fills it. Liquids will take the shape of the container they are poured into.
You can fill 16 and have 13 gallons left over to partially fill container number 17.
Yes, particles in a gas will fill the available space of their container and take on the shape of the container. The volume of the container doesn't affect this behavior as the particles will distribute evenly throughout the space.
To determine how many 125ml containers are needed to fill 2.5L, we first need to convert 2.5L to ml. Since 1L is equal to 1000ml, 2.5L is equal to 2500ml. Next, we divide 2500ml by 125ml to find the number of containers needed. Therefore, 20 125ml containers would be required to fill 2.5L.
Liquids and gases share the property of changing shape in different containers. Liquids take the shape of their containers due to their ability to flow and conform to the shape of the container. Gases also fill the space of their container, taking its shape as they expand to fill the available volume.
You would divide 882 by 15 and get 58.8. Since .8 of a container means its not all the way full then you could only fill 58 containers.