Because they are more than half starved, sick, very cold (had have been for a long long time), weak... And they are so scared that they can probably not get enough people willing to take such a big risk to make a big enough resistance so that there are enough sick, weak, unarmed prisoners to take on the healthy, warm, well dressed, well fed, armed SS soldiers.
Large-scale resistance efforts by prisoners were often hindered by factors such as fear of retribution, lack of organization, and overwhelming power differentials between prisoners and their captors. Additionally, prisoners may have been isolated from each other or lacked a cohesive leadership structure to coordinate a unified resistance. The harsh consequences of failed resistance attempts may have also deterred individuals from taking part in large-scale efforts.
The effort required would be proportional to the resistance.
Effort, resistance
resistance,effort
resistance force
The ratio of resistance force to effort force is a mechanical advantage.
Transportation
The effort force is the force that is applied to an object that causes it to move. The object reciprocates with a resistance force. If the effort force is greater than the resistance force, the object moves.
distance from fulcrum to point of effort is de distance from fulcrum to point of resistance is dr Force applied is called the effort, Fe The weight of the object to resistance, Fr Ignoring the weight of the lever itself ... IDEALLY Fede = Frdr Effort ---- fulcrum ---- resistance (not necessarily equal lengths) In this illustration, effort pushes down on left, resistance is lifted up on right.
Class 2.
where your hand is, your lower hand is the fulcrum.
Because a second class lever is a lever in which the resistance is located between the fulcrum and the effort. When you stand on your tiptoes, the fulcrum is located at your toes, the effort is at your Achilles tendon, and the resistance is the weight of your body pushing down. therefore, the resistance is between the fulcrum and the effort.
a 1st class lever there are 3 types of levers, 1st 2nd and 3rd class. 1st: fulcrum between effort and resistance 2nd:resistance between fulcrum and effort 3rd: effort between fulcrum and resistance Fulcrum = a pivot point on a lever. Effort = force applied on lever Resistance = load 1st example:see-saw/scissors 2nd example:wheelbarrow/car door 3rd example:someone raking/ hockey stick being usued