When goods are normal, CV > EV.
The mechanical advantage is that the force applied increases but that is compensated by the fact that the rope or chain needs to be moved through a greater distance.
Saturn's greater mass is compensated by its lower density. Stated another way, if you are on Saturn's "surface" (it doesn't really have any proper surface like the Earth), the center of Saturn is far away.
That really depends on the details of the experimental setup. However, impulse, which is change of momentum, is equivalent to force x time - that means that if a force is applied for a certain time, it will provide the same impulse (change of momentum) to objects of different mass. The more massive object's speed will change less, but this is compensated by its greater mass.
One of the Coercive Acts of 1774, the Boston Port Act, closed Boston Harbor until the East India Company could be compensated for its cargo lost in the Boston Tea Party (1873). However, of greater impact was that the Massachusetts Government Act placed all appointments to positions in the colonial government in the hands of the colonial governor or the king.
acceleration: "speed variation". the greater the force printed on an object, the greater the variation, the greater the time, the less the variation, therefore, a = f / t.
An ANOVA is an analysis of the variation present in an experiment. It is a test of the hypothesis that the variation in an experiment is no greater than that due to normal variation of individuals' characteristics and error in their measurement.
If you are taking the variation of 'g' with altitude, then its weight is lesser, not greater, at the beginning of the descent. But for small heights, The variation of g is negligible, so its weight remains the same
Because there is no air resistance. The same happens on Earth, if you let things fall within a vacuum chamber. Basically, for a more massive object, there is a greater force pulling it down, but this is compensated by the fact that the more massive object also has a greater inertia. Newton's Second Law, solved for acceleration: a = F/m. If you double the mass, the force will also double, since the force (of the gravitational attraction) is mass x gravity.
greater genetic variation. (e2020 answer)
-2
-Habitat destruction -Erosion -Climate change (greater variation in temperatures and drier) -Greater risks of flooding
A mechanism with a positive mechanical advantage is one in which the input force is greater than the output force. This is compensated for by the fact that the distance moved by the input is greater than the output so that in an ideal machine, the work input (Force*Distance) is the same as the work output. In real life, though, you always lose some energy - in the form of frictional heat, or sound.A negative mechanical advantage is the opposite. A small distance moved by the input is converted to a large distance moved by the output. But the force in the output is correspondingly reduced.A mechanism with a positive mechanical advantage is one in which the input force is greater than the output force. This is compensated for by the fact that the distance moved by the input is greater than the output so that in an ideal machine, the work input (Force*Distance) is the same as the work output. In real life, though, you always lose some energy - in the form of frictional heat, or sound.A negative mechanical advantage is the opposite. A small distance moved by the input is converted to a large distance moved by the output. But the force in the output is correspondingly reduced.A mechanism with a positive mechanical advantage is one in which the input force is greater than the output force. This is compensated for by the fact that the distance moved by the input is greater than the output so that in an ideal machine, the work input (Force*Distance) is the same as the work output. In real life, though, you always lose some energy - in the form of frictional heat, or sound.A negative mechanical advantage is the opposite. A small distance moved by the input is converted to a large distance moved by the output. But the force in the output is correspondingly reduced.A mechanism with a positive mechanical advantage is one in which the input force is greater than the output force. This is compensated for by the fact that the distance moved by the input is greater than the output so that in an ideal machine, the work input (Force*Distance) is the same as the work output. In real life, though, you always lose some energy - in the form of frictional heat, or sound.A negative mechanical advantage is the opposite. A small distance moved by the input is converted to a large distance moved by the output. But the force in the output is correspondingly reduced.