You can conclude many things, but you have to make some assumptions. The conclusion you could make from this limited amount of data is that the two objects are falling, since objects fall at the same rate.
You could conclude that object a has less kinetic energy than object b. - Object b has a greater inertia than object A
What would be the density of an object that has a volume of 25 cm3 and 5 grams?
Well, darling, an object equal to the weight of 80 grams would be... drumroll... an object that weighs 80 grams! It's as simple as that, honey. Just plop 80 grams of anything on a scale, and voilà, you've got yourself an object that weighs 80 grams.
The weight of an object is measured in Newtons and not grams, so there cannot be such an object. The question is like asking what object weights more than 500 metres!
You use grams to find the mass of an object.
You could conclude that object a has less kinetic energy than object b. - Object b has a greater inertia than object A
The object's kinetic energy is 2,500 joules.
An object that weighs 6 ounces is equivalent to approximately 170 grams.
The mass of an object that weighs 200 grams is 200 grams.
Centripetal acceleration is measured in meters per second squared (m/s^2), not in grams. Grams are a unit of mass, not acceleration. The centripetal acceleration of an object is the rate at which its velocity is changing direction as it moves in a circular path.
No. Grams are for weight.
Mass is measured in kilograms or grams and refers to the amount of matter in an object.
Example: The density of an object is 100 grams/cm3. The weight of an object is 50 grams. What is the volume of the object?
It depends on the volume of the object.
The density of the object is 34 grams divided by 14 milliliters, which equals to 2.43 grams per milliliter.
No object does since weight is not measured in grams but in Newtons. Grams are used for measuring mass, not weight.
What would be the density of an object that has a volume of 25 cm3 and 5 grams?