You haven't asked a question. So I'll ask one using your data,
and then answer it.
Q:
What is the apparent weight of the object when it's completely submerged ?
A:
5 N.
If the object is irregular the best way is to measure the volume of water it displaces when you immerse it completely in water.
You can measure the volume of an object. By putting some water in a container with graduation marks, taking a measurement of the volume of water, then placing the object in the water so that it is totally submerged in the water, then measuring the new volume level. The difference between the new volume and original volume will be the amount of water that the object displaces (or the object's volume).
1,500 mL
It's called displacement. Say you have a closed irregular object. It takes up space. Dunk it in water and it displaces the water. Finding out how much water was displaced tells you how much space the object took up. That's the volume =P.
Use the water displacement method. The object is equal to the amount of water it displaces. :)
volume of water an object displaces is equal to the volume of the part of the object inside it
If the volume of liquid the object displaces weighs more than the object, the object will float. The principle is buoyancy or specific gravity.
"Displacement" means pushing the water away from space where the object wants to be. If 16.5 mL of water is displaced, then the volume of the object must be 16.5 mL. At least the volume of the part of it that's down in the water, like if it's floating.
652 cm³
If it displaces 8 ml of water then its its volume is equal to the volume of water it displaces, 8 ml or 8 cubic centimeters
If the object is irregular the best way is to measure the volume of water it displaces when you immerse it completely in water.
No relationship at all. But there is a definite and direct relationship between theamount of water than an object displaces and the object's volume.
If the object is irregular the best way is to measure the volume of water it displaces when you immerse it completely in water.
652 cc (unless it was floating).
According to Archimedes principle...An object immersed in water experiences a force equal to the weight of the volume of liquid displaced by it. Here the weight of liquid displaced is 15n. So, the upward buoyant force experienced by that object is 15n.
An object will sink when it weighs more than the water it displaces (around 62 pounds per cu foot)
If an object sinks in water, then its mass is greater than the mass of the volume of water that the object displaces. (That could be equal to or greater than the object's actual volume ... a drinking glass displaces more water than the volume of glass in it until the water washes over its rim. A canoe, a bass-boat, and a ship are designed to displace more water than their actual volume.)