1 / 51

LEVER

LEVER. LALIT M TIWARI. A lever is a rigid object used to make it easier to move a large load a short distance or a small load a large distance.  Lever is a rigid bar which can rotate about a fixed point when a force is applied to it to overcome a resistance.

edavison
Télécharger la présentation

LEVER

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. LEVER LALIT M TIWARI

  2. A lever is a rigid object used to make it easier to move a large load a short distance or a small load a large distance.  Lever is a rigid bar which can rotate about a fixed point when a force is applied to it to overcome a resistance. Muscles and bones act together to form levers. A lever is a rigid rod (usually a length of bone) that turns about a pivot (usually a joint). Levers can be used so that a small force can move a much bigger force. This is called mechanical advantage.

  3. A lever is a rigid bar that moves on a fixed point called the fulcrum, when a force is applied to it. The applied force, or effort, is used to move a resistance, or load. In the human body, the joints are fulcrums, and the bones act as levers. Muscle contraction provides the effort that is applied at the muscle’s insertion point on the bone. The load is the bone itself, along with overlying tissues and anything else you are trying to move with that lever.

  4. There are four parts to a lever – lever arm, pivot, effort and load. In our bodies: bones act as lever arms joints act as pivots of fulcrum muscles provide the effort forces to move loads load forces are often the weights of the body parts that are moved or forces needed to lift, push or pull things outside our bodies.

  5. Types of Lever

  6. First class lever system In a first class lever system, the fulcrum is the middle component and lies between the effort and load. Examples of a first class lever system in the body are rare as few exercises utilise a first-class lever system although extension (straightening) at the elbow is one example. Extension at the elbow can be seen during a throwing action or tennis stroke. Hyperextension of neck, planter flexion.

  7. In a first-class lever, the effort is applied at one end of the lever and the load is at the other, with the fulcrum somewhere between. seesaws and scissors are first-class levers. First-class leverage also occurs when you lift your head off your chest. Some first-class levers in the body operate at a mechanical advantage (for strength), but others, such as the action of the triceps muscle in extending the forearm against resistance, operate at a mechanical disadvantage (for speed and distance).

  8. During extension of the elbow, the effort is created by the triceps via its point of insertion on the ulna, so is a first class lever system.

  9. Second class lever system In a second class lever system, the load is the middle component and lies between the fulcrum and the effort. In a second-class lever, the weight (resistance) is located between the axis (fulcrum) and the force The most obvious example is a wheelbarrow, where a weight is placed in the bed of the wheelbarrow between the wheel (axis) and the hands of the person using the wheelbarrow (force). In the human body, an example of a second-class lever is found in the lower leg when someone stands on tiptoes

  10. In a second-class lever, the effort is applied at one end of the lever and the fulcrum is located at the other, with the load between them. A wheelbarrow demonstrates this type of lever system. Second-class levers are uncommon in the body, but the best example is the act of standing on your toes. All second-class levers in the body work at a mechanical advantage because the muscle insertion is always farther from the fulcrum than the load. Second-class levers are levers of strength, but speed and range of motion are sacrificed for that strength.

  11. Third class lever system The majority of movements in the human body are classified as third class lever systems. In a third class lever system, the effort is the middle component and lies between the fulcrum and load. In a third-class lever, the effort is applied between the load and the fulcrum. Dorsi flexion

  12. Most skeletal muscles of the body act in third-class lever systems. An example is the activity of the biceps muscle of the arm, lifting the distal forearm and anything carried in the hand. Third-class lever systems permit a muscle to be inserted very close to the joint across which movement occurs, which allows rapid, extensive movements (as in throwing) with relatively little shortening of the muscle. Muscles involved in third-class levers tend to be thicker and more powerful

  13. A third-class lever might be the elbow joint: when lifting a book, the elbow joint is the fulcrum across which the biceps muscle performs the work. In a third-class lever, the most common in the human body, force is applied between the resistance (weight) and the axis (fulcrum)

  14. Class I Class II

  15. Class III

More Related