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the more matter an object contains the greater its blank and the more it will blank
Matter is what is in an object...it is what something is made of.Weight is the effect of gravity on an object.The more matter in an object, the greater effect gravity has on that object, making it weigh more than another object with less matter.Don't forget that size does not always show how heavy something is...If you have a small object which is really dense (contains a lot of matter), it may weight more than a larger object with a low density.
That must refer to the mass. Mass is sometimes described as the "amount of matter". Please note that describing mass as "amount of matter" is rather informal; better read the Wikipedia article on mass, or some similar introductory article, for a more precise description.
iron
matter has more occupation inside the variable. donesnt matter what the object is, as long as one of the contents are bigger, they have a better chance.
The more matter an object contains, the greater its mass
the more matter an object contains the greater its blank and the more it will blank
Matter is what is in an object...it is what something is made of.Weight is the effect of gravity on an object.The more matter in an object, the greater effect gravity has on that object, making it weigh more than another object with less matter.Don't forget that size does not always show how heavy something is...If you have a small object which is really dense (contains a lot of matter), it may weight more than a larger object with a low density.
the amount of matter that an object contain the more mass an object has the greater its weight
This object is negatively charged and it is called an anion.
true
Strictly speaking, no. Earth has stronger gravity because it has more mass than Mars does. Size is a measure of how much space an object occupies. Mass is a measure of how much matter an object contains.
yes it can
Mass is essentially a measure of the amount of matter an object contains, but more specifically: It is a measure of an object's resistance to accelerate.Weight is a measure of the amount of force acting on an object, though it is typically associated with gravitational force.The formula, F = M * A (Force = Mass * Acceleration) relates all three quantities.An object contains a certain amount of matter, and the more matter it has, the more difficult it is to accelerate the object. This mass is typically measured in grams or kilograms, and it is found by finding the weight of on an object and dividing it by the acceleration (Usually that is gravitational acceleration).Note that Mass and Weight are NOT the same thing. Weight, in our perspective here on earth, is the acceleration of gravity (9.81 meters per second) times the amount of mass we contain. Therefore, a person with 10 kilograms of mass weighs 98.1 Newtons on earth. If that same person were to be on the moon, their mass would remain the same, as no matter has left them; however, their weight would be smaller because the acceleration of gravity is only 1.62 meters per second on the moon.As an object's mass increases, it's weight increases as well. However, as an object's weight increases, it does not necessarily mean that its mass is increasing as well, for the magnitude of gravity's acceleration may just be getting larger, but the object may not be gaining any more matter.In a nutshell: Weight is the measure of the force on an object depending on the mass of said object and the gravity which acts upon it. Mass is the resistance of an object to accelerate, depending on the amount of matter it contains.
when the object contains more electrons than protons it becomes negatively charged or and Ion.
No, it doesn't matter. The number of particles determines the mass of an object, not the temperature.
That must refer to the mass. Mass is sometimes described as the "amount of matter". Please note that describing mass as "amount of matter" is rather informal; better read the Wikipedia article on mass, or some similar introductory article, for a more precise description.