the elbow is a hinge joint.. the knee is a hinge joint and it rotates.
i m just reaching in my own mind.. so i have not looked anything up to answer this..
i do know
the knee has incrediable shock absorbers called menicus in both the top and bottom of the joint.. these little disks of shock absorbing fluid take a lot more pressure than an elbow could provide..
that's my observations of those two joints..
stays the same length
The shoulder joint is a ball-and-socket joint that allows for greater range of motion, including flexion, extension, abduction, adduction, internal rotation, and external rotation. The elbow joint is a hinge joint that primarily allows for flexion and extension movements. This difference in joint structure contributes to the varying degrees of movement in the shoulder and elbow.
If you are talking about a prosthetic elbow joint the it is led into the bone with a cement or a gauze through which bone Will eventually grow. the joint itself. is fitted with a lose pin hinge where the pin is held in place with a screw. Aside from that the same tissue as always aside from cartilage surrounds the joint.
The knee joint is more susceptible to injury than the hip joint because it is a complex joint with multiple components that are involved in weight-bearing activities. The knee is also more exposed and has less stability compared to the hip, making it more prone to injuries during movements that involve twisting, sudden direction changes, or impact. Additionally, the knee joint absorbs a significant amount of force during activities like running, jumping, and landing, increasing the risk of injury.
The spine acts as a shock absorber for the body. The intervertebral discs between the vertebrae help cushion the impact of movements and activities on the spine, reducing stress and protecting the spinal cord. The knee and elbow joints are not designed to absorb shocks in the same way as the spine.
Total knee replacement is a type of total joint arthroplasty. Total joint arthroplasty could refer to any joint replacement.
There is no such thing as an elbow bone, because the elbow is a joint. The forearm has the Ulna and the Radius bones, and there is no elbow bone.
Yes because if they went the same way you would be very stiff.
The shoulder is not a hinge joint. You probably meant elbow. It is a hinge along with the knee. It is called a hinge because it works much the same as a door that can open and close by having one edge shared with the door jam that holds the door where it is but allows it to move in one plane, back and forth.
stays the same length
A chicken wing has a joint that is very similar to a human elbow. The chicken wing bends in the same way as a human elbow.
No. A dog's front legs have elbows, and the back ones have knees.
The shoulder joint is a ball-and-socket joint that allows for greater range of motion, including flexion, extension, abduction, adduction, internal rotation, and external rotation. The elbow joint is a hinge joint that primarily allows for flexion and extension movements. This difference in joint structure contributes to the varying degrees of movement in the shoulder and elbow.
If you are talking about a prosthetic elbow joint the it is led into the bone with a cement or a gauze through which bone Will eventually grow. the joint itself. is fitted with a lose pin hinge where the pin is held in place with a screw. Aside from that the same tissue as always aside from cartilage surrounds the joint.
Chicken legs are essentially the same as human legs, only smaller, so the joint between the upper leg and the rest of the body is a ball-and-socket joint, while the upper leg to lower leg joint is a hinge joint.
A horse's hock is located on the back legs of the horse. It is the joint that would act as a knee for the horse and is the large joint located about half way up the horse's leg. Additional information: in comparative anatomy the hock joint is equivalent to a human ankle so it bends backward instead of forward. The stifle joint in a horse actually the same as a human knee joint.
The knee joint is more susceptible to injury than the hip joint because it is a complex joint with multiple components that are involved in weight-bearing activities. The knee is also more exposed and has less stability compared to the hip, making it more prone to injuries during movements that involve twisting, sudden direction changes, or impact. Additionally, the knee joint absorbs a significant amount of force during activities like running, jumping, and landing, increasing the risk of injury.