238475
Match the following joints with the bones involved:
1 (A)-(i), (B)-(iii), (C)-(ii), (D)-(iv)
2 (A)-(iii), (B)-(iv), (C)-(ii), (D)-(i)
3 (A)-(iv), (B)-(i), (C)-(ii), (D)-(iii)
4 (A)-(iv), (B)-(ii), (C)-(iii), (D)-(i)
Explanation:
Gliding joint - Between the carpals - Gliding joints or the plane joint are present between the carpal bones at the wrist and between the tarsal bones at the ankle - Hinge joint - Between humerus and ulna - Hinge joint is present between the humerus and ulna or the elbow joint and between the femur and tibia at the knee joint - Pivot joint- Between Atlas and axis - Pivot joint is present between the atlas and axis of the cervical vertebra. - Saddle joint- Between carpal and metacarpal of thumb.
NEET (Odisha)-2019
Locomotion and Movement
238477
The type of joint between the human skull bones is called:
1 cartilaginous joint
2 hinge joint
3 fibrous joint
4 synovial joint
Explanation:
The bones of the human skull are joined together by fibrous joints. These are fibrous connective tissue that holds the skull bones tightly together theses joints are immovable or have very limited movement, providing stability and protection to the brain. - Cartilaginous joints are connected by cartilage and allow for limited movement such as in the intervertebral discs. - Hing joints allow moments in one plane like a hinge on a door, and are found in joints such as the elbow and knee. - Synovial joints are characterized by the presence of a synovial fluid filled cavity and allow for a wide range of movements Examples of synovial joints include the shoulder joint and the hip joint.
AIPMT-1994 / AMU-2002
Locomotion and Movement
238479
The structures which join two bones at joints are made up of-
1 elastic fibres
2 collagen fibres
3 fibrocytes
4 chondrocytes
Explanation:
Exp. A The structures that join two bones at joints are made up of collagen fibers. Collagen fibers are the main component of the connective tissues that form the structures for joining bones. Collagen is a strong and flexible protein that provides structural support and tensile strength to the tissues.
Uttarakhand PMT-2010
Locomotion and Movement
238480
The joint between humerous and ulna is:
1 pivot
2 hinge
3 ball and socket
4 gliding
Explanation:
The joint between the humerous and ulna is a hinge joint. A hinge joint is a type of synovial joint that allows movement in only one plane, similar to the action of a hinge on a door. - A pivot joint allows rotational movements around a central axis, such as the joint between the atlas (first cervical vertebra) and axis (second cervical vertebra ) in the neck.
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Locomotion and Movement
238475
Match the following joints with the bones involved:
1 (A)-(i), (B)-(iii), (C)-(ii), (D)-(iv)
2 (A)-(iii), (B)-(iv), (C)-(ii), (D)-(i)
3 (A)-(iv), (B)-(i), (C)-(ii), (D)-(iii)
4 (A)-(iv), (B)-(ii), (C)-(iii), (D)-(i)
Explanation:
Gliding joint - Between the carpals - Gliding joints or the plane joint are present between the carpal bones at the wrist and between the tarsal bones at the ankle - Hinge joint - Between humerus and ulna - Hinge joint is present between the humerus and ulna or the elbow joint and between the femur and tibia at the knee joint - Pivot joint- Between Atlas and axis - Pivot joint is present between the atlas and axis of the cervical vertebra. - Saddle joint- Between carpal and metacarpal of thumb.
NEET (Odisha)-2019
Locomotion and Movement
238477
The type of joint between the human skull bones is called:
1 cartilaginous joint
2 hinge joint
3 fibrous joint
4 synovial joint
Explanation:
The bones of the human skull are joined together by fibrous joints. These are fibrous connective tissue that holds the skull bones tightly together theses joints are immovable or have very limited movement, providing stability and protection to the brain. - Cartilaginous joints are connected by cartilage and allow for limited movement such as in the intervertebral discs. - Hing joints allow moments in one plane like a hinge on a door, and are found in joints such as the elbow and knee. - Synovial joints are characterized by the presence of a synovial fluid filled cavity and allow for a wide range of movements Examples of synovial joints include the shoulder joint and the hip joint.
AIPMT-1994 / AMU-2002
Locomotion and Movement
238479
The structures which join two bones at joints are made up of-
1 elastic fibres
2 collagen fibres
3 fibrocytes
4 chondrocytes
Explanation:
Exp. A The structures that join two bones at joints are made up of collagen fibers. Collagen fibers are the main component of the connective tissues that form the structures for joining bones. Collagen is a strong and flexible protein that provides structural support and tensile strength to the tissues.
Uttarakhand PMT-2010
Locomotion and Movement
238480
The joint between humerous and ulna is:
1 pivot
2 hinge
3 ball and socket
4 gliding
Explanation:
The joint between the humerous and ulna is a hinge joint. A hinge joint is a type of synovial joint that allows movement in only one plane, similar to the action of a hinge on a door. - A pivot joint allows rotational movements around a central axis, such as the joint between the atlas (first cervical vertebra) and axis (second cervical vertebra ) in the neck.
238475
Match the following joints with the bones involved:
1 (A)-(i), (B)-(iii), (C)-(ii), (D)-(iv)
2 (A)-(iii), (B)-(iv), (C)-(ii), (D)-(i)
3 (A)-(iv), (B)-(i), (C)-(ii), (D)-(iii)
4 (A)-(iv), (B)-(ii), (C)-(iii), (D)-(i)
Explanation:
Gliding joint - Between the carpals - Gliding joints or the plane joint are present between the carpal bones at the wrist and between the tarsal bones at the ankle - Hinge joint - Between humerus and ulna - Hinge joint is present between the humerus and ulna or the elbow joint and between the femur and tibia at the knee joint - Pivot joint- Between Atlas and axis - Pivot joint is present between the atlas and axis of the cervical vertebra. - Saddle joint- Between carpal and metacarpal of thumb.
NEET (Odisha)-2019
Locomotion and Movement
238477
The type of joint between the human skull bones is called:
1 cartilaginous joint
2 hinge joint
3 fibrous joint
4 synovial joint
Explanation:
The bones of the human skull are joined together by fibrous joints. These are fibrous connective tissue that holds the skull bones tightly together theses joints are immovable or have very limited movement, providing stability and protection to the brain. - Cartilaginous joints are connected by cartilage and allow for limited movement such as in the intervertebral discs. - Hing joints allow moments in one plane like a hinge on a door, and are found in joints such as the elbow and knee. - Synovial joints are characterized by the presence of a synovial fluid filled cavity and allow for a wide range of movements Examples of synovial joints include the shoulder joint and the hip joint.
AIPMT-1994 / AMU-2002
Locomotion and Movement
238479
The structures which join two bones at joints are made up of-
1 elastic fibres
2 collagen fibres
3 fibrocytes
4 chondrocytes
Explanation:
Exp. A The structures that join two bones at joints are made up of collagen fibers. Collagen fibers are the main component of the connective tissues that form the structures for joining bones. Collagen is a strong and flexible protein that provides structural support and tensile strength to the tissues.
Uttarakhand PMT-2010
Locomotion and Movement
238480
The joint between humerous and ulna is:
1 pivot
2 hinge
3 ball and socket
4 gliding
Explanation:
The joint between the humerous and ulna is a hinge joint. A hinge joint is a type of synovial joint that allows movement in only one plane, similar to the action of a hinge on a door. - A pivot joint allows rotational movements around a central axis, such as the joint between the atlas (first cervical vertebra) and axis (second cervical vertebra ) in the neck.
238475
Match the following joints with the bones involved:
1 (A)-(i), (B)-(iii), (C)-(ii), (D)-(iv)
2 (A)-(iii), (B)-(iv), (C)-(ii), (D)-(i)
3 (A)-(iv), (B)-(i), (C)-(ii), (D)-(iii)
4 (A)-(iv), (B)-(ii), (C)-(iii), (D)-(i)
Explanation:
Gliding joint - Between the carpals - Gliding joints or the plane joint are present between the carpal bones at the wrist and between the tarsal bones at the ankle - Hinge joint - Between humerus and ulna - Hinge joint is present between the humerus and ulna or the elbow joint and between the femur and tibia at the knee joint - Pivot joint- Between Atlas and axis - Pivot joint is present between the atlas and axis of the cervical vertebra. - Saddle joint- Between carpal and metacarpal of thumb.
NEET (Odisha)-2019
Locomotion and Movement
238477
The type of joint between the human skull bones is called:
1 cartilaginous joint
2 hinge joint
3 fibrous joint
4 synovial joint
Explanation:
The bones of the human skull are joined together by fibrous joints. These are fibrous connective tissue that holds the skull bones tightly together theses joints are immovable or have very limited movement, providing stability and protection to the brain. - Cartilaginous joints are connected by cartilage and allow for limited movement such as in the intervertebral discs. - Hing joints allow moments in one plane like a hinge on a door, and are found in joints such as the elbow and knee. - Synovial joints are characterized by the presence of a synovial fluid filled cavity and allow for a wide range of movements Examples of synovial joints include the shoulder joint and the hip joint.
AIPMT-1994 / AMU-2002
Locomotion and Movement
238479
The structures which join two bones at joints are made up of-
1 elastic fibres
2 collagen fibres
3 fibrocytes
4 chondrocytes
Explanation:
Exp. A The structures that join two bones at joints are made up of collagen fibers. Collagen fibers are the main component of the connective tissues that form the structures for joining bones. Collagen is a strong and flexible protein that provides structural support and tensile strength to the tissues.
Uttarakhand PMT-2010
Locomotion and Movement
238480
The joint between humerous and ulna is:
1 pivot
2 hinge
3 ball and socket
4 gliding
Explanation:
The joint between the humerous and ulna is a hinge joint. A hinge joint is a type of synovial joint that allows movement in only one plane, similar to the action of a hinge on a door. - A pivot joint allows rotational movements around a central axis, such as the joint between the atlas (first cervical vertebra) and axis (second cervical vertebra ) in the neck.
