No, the function of the fulcrum remains the same The only change would be the ratio of force to load The closer the fulcrum is the the load, the less force required to lift it The farther away the fulcrum is from the load, the more force required to lift it
On a second class lever the load is between the effort arm and the fulcrum. Example: wheel barrow
because the load is situated between the effort and fulcrum
Class 2.
Third class: Fulcrum is the condyles, effort is the masseter muscle, and load is whatever you're chewing on.
A hammer is a 3rd class lever. A third class lever has a load-effort-fulcrum configuration. What is interesting about a hammer is that though the load is the head of the hammer, the effort and the fulcrum are both in the hand. What makes it a 3rd class lever is that the effort is more in the hand and fingers, while the fulcrum is closer to the base of the hand at the wrist.
There are three types of levers.there is first class levers were the fulcrum is in the middle and the load and effort are on the sides.also there is second class levers were the load is in the middle and the effort and fulcrum are either of the sides.last but not least there is third class the effort is in the middle and the fulcrum and load are on any side. :)first class second classand third classclass 1 lever like a fork or hammer. class 2 lever like a nut-cracker or a door.. and a class 3 lever such as tweezers, or a golf club...
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 First Class lever is one in which the fulcrum is locatedbetween the effort and the load.A Second Class lever is one in which the load is locatedbetween the fulcrum and the effort.A Third Class lever is one in which the effort is locatedbetween the fulcrum and the load.
In a First Class lever, the fulcrum is between the effort and the load.
the law for a second class lever is that the load is between the fulcrum and the effort
load fulcrum effort
Between the fulcrum and the load.
because the load is situated between the effort and fulcrum
In a first class lever the fulcrum is at the middle. load and effort are applied at two ends. eg scissors. In second class lever fulcrum is at one end and effort is at other end. The load is at the middle. eg nutcracker.
In a first class lever the fulcrum is at the middle. load and effort are applied at two ends. eg scissors. In second class lever fulcrum is at one end and effort is at other end. The load is at the middle. eg nutcracker.
A lever that has the load between the fulcrum and the effort is known as a second order lever. Once again, the further away the effort is from the fulcrum and the load the greater the mechanical advantage of the lever.
A wheelbarrow is an example of a second-class lever. The load is situated between the fulcrum and the force. The wheel-barrow is a 2nd class lever as the resistance is in between the force (effort) and the axis. A wheelbarrow is a class 2 lever. The fulcrum is the wheel or wheels in front of the wheelbarrow. You stand behind the wheelbarrow. The load is between you and the fulcrum.
The fulcrum is between the effort and the load.