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The gross weight includes the item and any packaging that may be on it or the vehicle that is hauling it. Net weight refers to the weight of the item only. The weight of a dump truck filled with gravel would be the gross weight, but the net weight would be weight of the gravel by itself.
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RossNet weight refers to the weight of just the product itself, excluding any packaging or containers. Gross weight includes both the weight of the product and any packaging or containers it is housed in. Net weight helps consumers know the true amount of product they are purchasing, while gross weight is important for shipping and logistics purposes.
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What should the graph of force of friction vs total weight look like?
The graph of force of friction vs total weight is typically linear, following the equation of force of friction = coefficient of friction * total weight. As total weight increases, the force of friction also increases proportionally. The slope of the graph represents the coefficient of friction.
What are the key differences between mass and weight that can be explored in a mass vs weight lab experiment?
In a mass vs weight lab experiment, the key difference between mass and weight is that mass is the amount of matter in an object, while weight is the force of gravity acting on that object. This can be explored by measuring the mass of an object using a balance scale and then calculating its weight by multiplying the mass by the acceleration due to gravity. The experiment can demonstrate how mass remains constant regardless of location, while weight can vary depending on the strength of gravity.
What does the slope of mass vs weight graph represent?
The slope of a mass vs weight graph represents the acceleration due to gravity. This value is consistent and is approximately 9.81 m/s^2 on Earth's surface.
Does your weight change depending on the pull of gravity?
Yes, weight is a measure of the force of gravity acting on an object. Therefore, weight will change depending on the strength of the gravitational pull, which can vary depending on location (e.g., Earth's gravity vs. the moon's gravity).
Why is weight not considered a constant measurement of the amount of matter an object contains?
Weight depends on the gravitational pull acting on an object, so it can vary based on location (e.g. weight on Earth vs. weight on the Moon). However, mass is a constant measurement of the amount of matter an object contains because it is a fundamental property of the object that does not change regardless of location.
