Objects of the same size can weigh differently due to variations in their density. Density is a measure of how much mass is in a given volume, so objects with different densities will weigh different amounts even if they have the same size. Additionally, the material composition and structure of the objects can also affect their weight.
No, objects do not always weigh the same. The way this is when more matter is on an object more weight. An object would weigh a different amount in a different gravitational field. For instance an object with a mass of 1 kg weighs 1 kg on earth. Its weight would be different on the moon though the mass would remain the same.
You can achieve this by adjusting the density of the objects. A smaller object made of denser material will weigh the same as a larger object made of less dense material. By manipulating the material and volume of the objects, you can make them have the same weight despite their size differences.
No, the size of an object refers to its dimensions, such as length, width, and height. Mass, on the other hand, is a measure of the amount of matter in an object. Two objects can have the same size but different mass if they are made of different materials or have different densities.
False. The question says "... regardless of size and weight ...", but it is weight that is the force of gravitybetween the object and the earth. So when the weight is different, the force is different, by definition.
Not necessarily. Inertia depends on both an object's mass and how that mass is distributed. Two objects of the same size but with different densities or internal structures can have different inertias.
No, objects do not always weigh the same. The way this is when more matter is on an object more weight. An object would weigh a different amount in a different gravitational field. For instance an object with a mass of 1 kg weighs 1 kg on earth. Its weight would be different on the moon though the mass would remain the same.
You can achieve this by adjusting the density of the objects. A smaller object made of denser material will weigh the same as a larger object made of less dense material. By manipulating the material and volume of the objects, you can make them have the same weight despite their size differences.
Different objects contain different amounts of matter, even if they are the same size. Therefore, two objects of the same size can have different masses.
Yes, two objects of the same height but with different proportions are considered to be similar in size.
No, the size of an object refers to its dimensions, such as length, width, and height. Mass, on the other hand, is a measure of the amount of matter in an object. Two objects can have the same size but different mass if they are made of different materials or have different densities.
False. The question says "... regardless of size and weight ...", but it is weight that is the force of gravitybetween the object and the earth. So when the weight is different, the force is different, by definition.
Not necessarily. Inertia depends on both an object's mass and how that mass is distributed. Two objects of the same size but with different densities or internal structures can have different inertias.
Not necessarily. Mass is a measure of the amount of matter in an object, so two objects of the same size and shape can have different masses if they are made of different materials or have different densities.
Not necessarily. Mass is a measure of the amount of matter in an object, while size refers to the dimensions of the object. Two objects of the same size may have different densities, which would result in different masses.
Terminal velocity for a feather will be considerably lower than the terminal velocity of a bullet. The size and shape of the object will play an important role. While objects dropped from a given height in a vacuum will fall to earth at the same velocity, the resistance caused by atmosphere will be different for different objects.
Yes, objects of the same size can have different amounts of matter if the objects are made of different materials. Materials with higher density will have more matter packed into the same volume compared to materials with lower density.
Sure. You can measure the weight of each of the objects, then subtract. Or you can put the objects on both sides of a pulley; this lets you directly measure the difference in weight.