Wiki User
∙ 15y agoThis is a poor question. There is no way such a method can measure the volume of a sugar cube, for example, because it will dissolve in the water.
Wiki User
∙ 6y agoA graduated cylinder.
The volume of a solid object such as a rock or pebble can be determined by submerging it in a liquid in a graduated cylinder or other container. The difference in the volume of the liquid is the volume of the object.
If it's a solid multiply the length times the width times the height. If it's a liquid use a graduated cylinder If it's an irregular solid drop it into a beaker, flask, graduated cylinder, or any other water-measuring tool and record how much the water goes up from the original height to the height when the irregular solid was dropped in, and subtract.
things needed: graduate cylinder, water, and the rock 1) fill the graduated cylinder to the top with water 2) next, take the rock and slowly emerge it into the water ( water will spill over the top of the glass so do so in a sink or outside on the cement ) 3) last, the amount of water left in the cylinder is the volume of your rock
the answer would be C88856
You can put water in the graduated cylinder and drop the solid in and see how much the water rises
To find displaced volume, you can immerse the object in a fluid and measure the volume of fluid displaced. The volume of fluid displaced is equal to the volume of the object. Alternatively, you can use geometric formulas or 3D modeling software to calculate the volume of the object directly.
Fill the graduated cylinder with water, and measure the volume. Now put the item in, measure the water's volume again, and take the difference
A graduated cylinder.
A graduated cylinder can be used to measure the volume of a solid by first measuring the initial volume of water in the cylinder and then adding the solid to find the new volume. The difference in volume before and after adding the solid gives the volume of the solid.
10-mL graduated cylinder
You can measure the volume of a solid object using a graduated cylinder and the water displacement method. Simply fill the graduated cylinder with water to a certain level, then place the solid object in the water and measure the increase in volume. The difference in volume before and after the object is added will give you the volume of the object.
For mass, you would use a triple-beam balance. For volume, you would either use a graduated cylinder (for liquids), calculate the displacement with a graduated cylinder (for an odd-shaped solid), or calculate it using the equation for volume (for a regularly-shaped solid).
To measure the volume of a solid, you would place the solid in a graduated cylinder or beaker (depending on the size of the solid) with a recorded volume of water. After putting the solid in the water, the water will rise, and subtracting the original volume from the final volume will give you the volume of the solid. Ex. Put a block in a graduated cylinder with 50 mL of water and the level rises to 75 mL. Volume=75-50=25 mL To determine the mass of the solid, you would simply mass it on a balance or scale.
You can put liquids such as water, oil, or alcohol in a graduated cylinder for measuring volume accurately. It is not recommended to put solid objects in a graduated cylinder because it can affect the accuracy of the measurement.
The method for determining the volume of a solid depends on its shape. The volume of a solid object with a regular geometric shape (rectangular box, cube, cylinder, sphere) can be determined using the volume formula for the shape. Because many objects are not regularly shaped their volume cannot be determined using a volume formula. The volume of these objects can be found by water displacement. A volume of water sufficient to cover the object is placed in a graduated cylinder and the volume read. The object is added to the cylinder and the volume read again. The difference between the two volumes is the volume of the object.
You cannot measure the mass of a solid with a graduated cylinder.