Refracted. Hope this helped.
Because the density of an object does not depend on the amount in an object but the hardness or softness of that object
Still the object's mass divided by the object's volume.The density of the composite object will be somewhere between the densitiesof the two different materials.
Density is equal to the mass divided by the volume.
The speed of sound through an object is related to the density and elasticity of the material. Velocity = square root of (elasticity (bulk modulus) divided by density). Thus if you can measure the material's elasticity and the velocity of sound waves passed through it, the density can be calculated without reference to the mass of the object.
You can find a rock's density in many different ways. That object has a high density and will not float on water.
The higher the density of an object, the harder it will be for the sound to be transmitted through the object.
transmitted
Because the density of an object does not depend on the amount in an object but the hardness or softness of that object
The density changes with different objects as all have different mass and volume(the space an object occupies) and the more compressed(Compact) the object is the more density it has.
Still the object's mass divided by the object's volume.The density of the composite object will be somewhere between the densitiesof the two different materials.
Density is equal to the mass divided by the volume.
Density is equal to the mass divided by the volume.
Density is equal to the mass divided by the volume.
When light passes through an object, we say it is transmitted. Transparent objects transmit a lot of light. basically it is called shadow
Assuming the object is the same straight through - nothing.
The speed of sound through an object is related to the density and elasticity of the material. Velocity = square root of (elasticity (bulk modulus) divided by density). Thus if you can measure the material's elasticity and the velocity of sound waves passed through it, the density can be calculated without reference to the mass of the object.
I am assuming that you mean mass of an object. The answer is no, it does not change. Mass (Density) stays the same wherever the object is, only its weight will change if the force of gravity is different.