Its velocity.
Its velocity.
Its velocity.
Its velocity.
Its velocity.
The more mass an object has, the more inertia it has. It is harder to change the motion of an object that has more mass.
The "mass" is what is sometimes called (quite informally) the "amount of matter". To be a bit more precise, the mass is what gives an object inertia (the more mass an object has, the harder it is to change its velocity - read about "Newton's Second Law" for more details), as well as gravitational attraction (for example, on Earth, an object's weight is proportional to its mass).
If object "A" is heavier than object "B", then object "A" also has more mass (weight = mass x gravity, and gravity can be assumed to be constant for most practical purposes). And more mass causes more inertia - inertia is the direct result of the amount of mass.
Inertia is the resistance of any physical object to a change in its state of motion. It is represented numerically by an object's mass. The more mass an object has, the greater its inertia.
Mass is that property of an object which:Gives it inertia. More mass means it is harder to change an object's velocity.Makes it attract other objects, via the gravitational force. This is what gives the object its weight. (Weight also depends on the gravitational field.)The kg (kilogram) is the international unit for mass. It is APPROXIMATELY equal to the mass of one liter of water.
The more mass an object has, the more inertia it has. It is harder to change the motion of an object that has more mass.
The more mass it has.
Inertia is the tendency of an object to resist a change in its motion. Objects with more mass have more inertia. The more mass an object has the harder it is to change its motion. Thats is how inertia effects and object. (Don't worry I got this from my Science Textbook)
The "mass" is what is sometimes called (quite informally) the "amount of matter". To be a bit more precise, the mass is what gives an object inertia (the more mass an object has, the harder it is to change its velocity - read about "Newton's Second Law" for more details), as well as gravitational attraction (for example, on Earth, an object's weight is proportional to its mass).
Because of air friction, the more physical space that an object takes up, the more power the object will need to move, this is because of the way air forces friction onto the moving object, therefore a small car/vehicle will have less air friction than a larger vehicle with more surface area
yes because of Newton's law F=ma. If you increase mass, you have to increase force to achive the same acceleration.
mass
Inertia refers to the resistance of an object when there is a change in the motion of the object. The more inertia the object has, the more mass it will have.
I assume you mean "mass".Mass is a property of an object that provides two things: * It provides the object with inertia. If an object has more mass, it is harder to accelerate the object (basically to make it go faster, or slower, or to change the direction of its movement). * It makes objects attract one another, through a force called gravity.
No. The mass of an object does not change. However and object's weight, which is a function of mass and gravity, is less on the moon than on earth.
You can add something to an object, or take something away. Other than that, you can't really change an object's mass. Do some reading on "conservation of mass" for more details.
If object "A" is heavier than object "B", then object "A" also has more mass (weight = mass x gravity, and gravity can be assumed to be constant for most practical purposes). And more mass causes more inertia - inertia is the direct result of the amount of mass.