Mass is the property of a body that causes to have weight in presence of gravity.
mass-units-kilograms
weight-units-newtons
we know that w=mg,where g is acceleration due to gravity
g=9.8 m/s2 for earth
As g is variable weight and mass are not equal
eg:
g for moon=g for earth/6.
the total mass will be equal to the mass of the tea added to the mass of the sugar such is the law of conservation of mass. The weight will be proportional and dependent on the gravity force of the position in space
If you meant to say mass instead of weight, the acceleration of an object is inversely proportional to mass, because F=ma. However for falling objects where acceleration is equal to gravity, the weight is not a variable.
You weigh an object to determine its mass. Weight is directly proportional to mass, and in fact most balances are calibrated in mass units such as kilograms.
force directly proportional to acceleration. so F/a is remains constant. which is equal to mass of an object
Mass = weight /gravity Density = Mass / Volume So, if you know the density and the volume, you can calculate the mass. Also, you can measure the mass by measuring the weight. On earth, mass and weight are equal.
true or false. weight and mass are proportional but not equal
The relationship between them is as follows. mass = volume x density weight = mass x gravity That means that, other things being equal, mass is proportional to volume. On the other hand, weight is also proportional to mass.
the total mass will be equal to the mass of the tea added to the mass of the sugar such is the law of conservation of mass. The weight will be proportional and dependent on the gravity force of the position in space
It means that although they are not equal, there is a correlation between them, e.g., mass directly affects weight. If an object has more mass, it will weigh more.
Yes, weight is directly proportional to mass, on earth weight = mass X 9.8 or sometimes it is simplified to 10, the unit for weight is newtons (N)
No, weight is a force. Mass is proportional to density.
If you meant to say mass instead of weight, the acceleration of an object is inversely proportional to mass, because F=ma. However for falling objects where acceleration is equal to gravity, the weight is not a variable.
Yes, weight is directly proportional to mass, on earth weight = mass X 9.8 or sometimes it is simplified to 10, the unit for weight is newtons (N)
They are most definitely NOT the same, but people often confuse them. The relationship is: weight = mass x gravity That means that, other things being equal, weight is proportional to mass. But it also depends on gravity.
As the mass increases, the weight also increases correspondingly as the weight is directly proportional to the mass
Yes. Weight is equal to mass times gravity, so if you keep gravity constant (for example, measure different masses on planet Earth), weight is indeed proportional to mass. But if you compare measures with different gravity, you see that weight not only depends on the mass.
weight = mass x gravity