Divide the mass of the object by it's volume in your question 350 g / 95 cm3 to find density.
Your answer will be 3.7 g cm-3 ( grams per cubic centimeter).
Since 1 gram of water occupies a volume of 1 cubic centimeter (also expressed as 1 milliliter), any substance with a volume in cubic centimeters (cm3) less than its weight in grams will sink, and any substance in a solid mass with a volume in cubic centimeters greater than its weight in grams will float.
So, no, if the substance is formed in a solid mass, it will not float.
It should be noted that whether something floats is also very dependent on its shape. The most obvious examples of why this is relevant are steel boats. Steel doesn't float when it's in a solid mass, but when it's shaped into a bowl, it can float quite well. So when calculating floatation, the relevant volume isn't only the volume of the substance being put in the water, but the mass ofo the water that the substance will be used to displace, plus the mass of the substance, measured against the volume of the total space created in the water.
Divide the mass by the volume.
You forgot to mention a dimension for the volume, is it cm3?
If it is, its 350 g / 953 cm3 = 0.367 g/cm3
This is 1/3th the density of water.
It would be helpful if you had included units. If mass is in grams, and volume is in cm3, the density would be 350g/95cm3 = 3.7g/cm3. It is more dense than water, which has a density of 1g/cm3, therefore it would sink in water.
The object's density is about 3.68 g/cm3
d=m/v d=density in g/ml. m=mass in grams. v=volume in mL cm3 = mL so, d=350/95 d=3.68 g/mL
Yes, if a substance has a mass of 35g and a volume of 350ml it will float because the density is 0.1g/ml.
IS DENSITY IS 3.68g/CENTIMETER CUBIC SO THE OBJECT FLOAT ON THE WATER
The object has a density of 3.68g/cm^3
Density = mass/volume = 5 gm/cm3 .
350 liters = 92.46 US gallons = 76.99 imperial gallons
Difference in volume = (initial volume) (coefficient of volume expansion of water) (difference in temperature) coefficient of volume expansion of water=0.0002ml/degree celsius (not sure about the value. Better get help from a teacher.)
350 centimeters = about 137.8 inches. (137.795276 inches).
21 350 what? If it's 21 350 meters, that equals 21.35 kilometers.
Do your homework. If you don't understand the concept for this, ask your teacher. This isn't really the forum for explaining how the equation PV=nRT works.
The object's density is about 3.68 g/cm3
Density is calculated as Mass / Volume. Therefore for an object that has a mass of 350 grams and a volume of 95 cm^3, the density would be 3.684 g/cm^3. Water has an estimated 1g/cm^3 density, therefore the density of this object is greater than that of water and would sink.
Density is calculated as Mass / Volume. Therefore for an object that has a mass of 350 grams and a volume of 95 cm^3, the density would be 3.684 g/cm^3. Water has an estimated 1g/cm^3 density, therefore the density of this object is greater than that of water and would sink.
Divide the mass of the object by it's volume in your question 350 g / 95 cm3 to find density. Your answer will be 3.7 g cm-3 ( grams per cubic centimeter).
350/95 = 3.684 gm/cc (rounded)
3.684
density = mass/volume = 350/150 = 2.33 grams/cubic centimeter
Density can be calculated using the formula D = m/v. Where D is density; m is mass; and v is volume. For your example: mass(m) is 350 grams volume(v) is 95cm2 (can also be written as 95 mL) therefore D = 350g/95cm2 =3.6g/cm2
Density = Mass/Volume = 962/350 = 2.7485 grams per cubic centimeter
d=m/v m= 350g v= 70cm d=350/70 d=5g/cm
density = mass / volume = 820 / 350 the answer will be in g/cm cubed. If you want in in Kg / m3 you need to change the measurements to fit the units.
It would sink because the object is more dense than the water.