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Well, Weight is a force that equals mass times the gravitational acceleration. i.e. F = m * g, on Earth g= 9.81 m/s/s (or meters per second squared). So to answer your question, no. The Weight of an object depends only on its mass and the acceleration due to gravity.
the total mass of the vehicle and the load it contains
For a given mass, the acceleration is directly proportional to the net force acting on the mass, and is in the same direction as the net force. In other words, the larger the net force acting on an object, the greater its acceleration. When the net force is zero, the object is either at rest or moving with a constant velocity.
Force = Mass x Acceleration
Net force is 6N
Unit net weight Weight (mass) of goods including any packing normally going with them to a buyer in a retail sale. Net net weight Weight (mass) of the goods themselves without any packing.
Add them together. Net weight is the weight of the contents only. Gross weight is the weight of both the contents and the container combined.
Weight is the magnitude of the force caused by the interaction between an object's mass and the net gravitational field the object is resting in.
B. Mass divided by the net force acting on you
If you know the net weight in pounds, multiply that by 0.454 to convert to kilograms. (Note: Technically a kilogram is not a weight, but a mass.)
Gross Weight is the Net weight plus the tare, the tare being the mass of the container the item is contained within. Example: a package containing a steak in a supermarket freezer has a net weight of 650grams. The gross weight is the 650grams plus the 10-12 grams of tray and packaging. Essentially the gross weight is a weight of the whole package.
No. Net force affects motion. So you probably want to ask the question differently.
Net mass is the total mass of material and container minus the mass of the container.
For example you have a box of apples. The gross mass is the mass of the box and apples, the net mass just the apples.
net force=mass x acceleration => mass=net force/ acceleration mass= 100/ (5/2) => mass=40
-- A car accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the car. -- A stone accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the stone. -- A Frisbee accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the Frisbee. -- A baseball accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the baseball. -- A dog accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the dog. -- A book accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the book. -- A canoe accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the canoe. -- An airplane accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the airplane. -- A planet accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the planet. -- A cow accelerates in the direction of the net force on it, at a rate equal to the magnitude of the net force divided by the mass of the cow.
It is the French term for "net weight", which is the weight of a substance, not including the weight of the container it's in; "gross weight" includes the weight of the substance and the container.