The sequence from least moveable joint to most: Suture, Syndesmoses, Saddle, Ball-in-Socket Sutures are fibrous joints that only occur between bones of the skull; a syndesmoses is also a fibrous joint in which there is a greater distance between the articulating surfaces and ligaments connect them; saddle joint is a triaxial joint and can move only in 3 planes of motion; the ball-in-socket joint is also triaxial and can actually produce as much movement as the saddle joint.
the joint that joins the skull to the first vertebra
No, a ball and socket joint is a multiaxial joint because it allows for motion in multiple planes. This type of joint provides a wide range of motion, including flexion, extension, abduction, adduction, circumduction, and rotation.
That is stress in three dimensions. Biaxial stress is in two dimensions. Triaxial stress has normal and shear stresses along each of three planes. Most beams can be analyzed with uniaxial stress; plates with biaxial; solids with triaxial
No, the synovial ball-and-socket joint is a diarthrodial joint, which is a type of freely movable joint. Amphiarthrodial joints allow limited movement, while diarthrodial joints offer a wide range of motion.
Whenever you need to properly describe a joint, either for studying or for an assignment, it's important to mention the following details:name(s) of the jointarticulating bonestype of joint/joint classificationmovements providedligaments involvedother detailsExample: The shoulder joint(1) The humeroscapular joint or shoulder joint is the articulation between (2) the head of the humerus and the glenoid cavity of the scapula. It is a (3) ball-and-socket synovial joint which provides (4) triaxial movement and circumduction. (5) The coracohumeral, glenohumeral and tranverse humeral ligaments are involved.(6) The shoulder joint is the point of attachment of the upper limbs/arms to the body. The rotator cuff helps to stabilize and strengthen the joint.Joints occur wherever two bones meet.
Shear box tests are generally suitable for cohensionless soil except fine sand and silt whereas triaxial test is suitable for all types of soils. Pressure changes and volume changes can be measured directly in triaxial test which is not possible in shear box test. Pore water pressure can be measured in the case of triaxial test which is not possible in direct shear test. Triaxial machine is more adaptable. The stress distribution across the soil sample in the failure plane is more uniform in triaxial test. The complete state of stress is known at all intermediate stages up to failure during the triaxial test whereas only the stress at failure are known in the direct shear test. In triaxial test, there is complete control over the drainage conditions, where control of drainage conditions is very difficult in shear box test.
joint cavity
A suture is an example of an immovable joint called a synarthrosis.
The joint in your shoulder is an example of a ball-and-socket joint, allowing for a wide range of motion in multiple directions.
pivot joint
multiaxial joint