Volume cannot be measured in "grams per cubic centimeter". So the question, as stated makes no sense at all. Please check and resubmit.
if the substance of the element has greater density you can make it float by carving it out so weight over volume of the object is lighter in effective density
A good object that will float is a plastic container. It worked for me. Yes a plastic container will work well it worked in my science class.
The cube has a larger volume.
The object will float or sink.
- A higher surface area will increase heat loss as more heat can be radiated. - It may improve an object's ability to float on water. - Increases drag or air resistance when an object is moving - this is why parachutes are used to slow people down when falling.
No, an object that has a mass of 3.68 grams per cubic centimeter will not float on water. This density is greater than that of water, which has a density of 1 gram per cubic centimeter, so the object will sink in water.
An object will float in water if it has less density than the water. You can calculate the density of the object by dividing its mass by its volume. For comparison, the density of water is: * 1 gram / cubic centimeter * 1 kilogram / liter * 1000 kilograms / cubic meter
Yes, an object will float if its volume is greater than its mass, as this means its density is less than that of the fluid it is in. This creates a buoyant force that is greater than the force of gravity acting on the object, causing it to float.
An object that is equivalent to the density of water is an object that has a density of 1 gram per cubic centimeter. This means that the object will have the same mass per unit volume as water. Therefore, if you were to place this object in water, it would neither sink nor float, but would stay suspended in the water.
The object will sink in water, as the density of water is 1 gram per cubic centimeter. Since the object's density is less than that of water, it will not displace enough water to float.
In order to find if it will float, you have to divide mass by volume (pg 18 in your textbook). 65 divided by 77 = 0.8441558. Now, if the object is less than 1.0g/cm3 (pg 19), it means it will float. Answer: Yes, it will float. Note: LOL I was searching for the answer too, hoping someone would answer your quetion, but no no one did. So I gave up and found it by myself. Oh Lol.
If an object has a density less than 1 gram per cubic centimeter, it will float in water because the density of water is around 1 gram per cubic centimeter. This means that the object is less dense than water and will displace enough water to stay afloat.
An object needs to be less dense than the fluid it is in to float. This can be achieved by increasing the object's volume relative to its mass. For example, a ship floats because its average density is lower than that of the water it displaces.
Saturn would float in water, as it is a gas giant predominantly made of hydrogen and helium. Its low density compared to water would cause it to float.
The object will sink in water because its density (77 g/cm³) is greater than the density of water (1 g/cm³). Objects with a density greater than that of water will sink, while objects with a density less than water will float.
Calculate the density (mass divided by volume) of your object. If the density is less than that of water - which has a density of about 1000 kg per cubic meter - then it will float; if the density of your object is more, it will sink.
You would need to supply the volume of the container, not the area. Your number of 14 square meters doesn't provide enough information. If you meant to write 14 CUBIC meters, then we can calculate the average density as 0.04286 grams per cubic centimeter,, which means that the object will easily float. If it is floating, then it displaces 600 kg of water, which has a volume (assuming fresh water at standard temperature) of 0.6 cubic meters.