284914
The sound reception can be interpreted by :
1 Olfactory lobe
2 Cerebral hemisphere
3 Cerebellum
4 Medulla oblongata
Explanation:
B Sound reception, can be interpreted by the human auditory system, which includes the ears and brain. When sound wave enter the ear rich eardrum, causing vibration. This vibrations are transmitted to tiny bone, and amplify the sound and send to the inner ear. In the inner ear hair cell convert the vibration into electrical signals. The electrical signal transmitted to brain temporal lobes.
Rajasthan PMT-1998
Neural Control and Coordination
284915
Eustachian canal connects
1 Middle ear with external ear
2 Middle ear with internal ear
3 External ear with internal ear
4 Pharynx with middle ear
Explanation:
D The Eustachian canal also known as the Eustachian tube or auditory tube, connects the middle ear to the pharynx (the back of the throat). It help in equalizing air pressure on both side of the ear drum.
MGIMS Wardha-2008 / JIPMER-2010
Neural Control and Coordination
284916
The direction of light striking the retina will be
C The direction of light striking the retina will be firstly on the sensory nerves. Then the light striked primarily on ganglionic cells which pass the impulse to bipolor neurons through which it moves to photosensory cells. Hence, the correct direction of light striking the retina is-
AMU-2010
Neural Control and Coordination
284917
The optic lobes in humans are represented by the corpora
1 Bigemina
2 Arenacea
3 Striata
4 Quadrigemina
Explanation:
D The optic lobes in humans are represented by the corpora quadrigemina. The corpora quadrigemina are reflex centre's involving vision and hearing. It basically connects the forebrain and the hind brain. They play important role in processing, particular in visual and auditory functions. The quadrigemina are consists of two part :- (i) superior colliculi. (ii) Inferior colliculi. Both contribute to the integration of sensory information, an important part of midbrain.
284914
The sound reception can be interpreted by :
1 Olfactory lobe
2 Cerebral hemisphere
3 Cerebellum
4 Medulla oblongata
Explanation:
B Sound reception, can be interpreted by the human auditory system, which includes the ears and brain. When sound wave enter the ear rich eardrum, causing vibration. This vibrations are transmitted to tiny bone, and amplify the sound and send to the inner ear. In the inner ear hair cell convert the vibration into electrical signals. The electrical signal transmitted to brain temporal lobes.
Rajasthan PMT-1998
Neural Control and Coordination
284915
Eustachian canal connects
1 Middle ear with external ear
2 Middle ear with internal ear
3 External ear with internal ear
4 Pharynx with middle ear
Explanation:
D The Eustachian canal also known as the Eustachian tube or auditory tube, connects the middle ear to the pharynx (the back of the throat). It help in equalizing air pressure on both side of the ear drum.
MGIMS Wardha-2008 / JIPMER-2010
Neural Control and Coordination
284916
The direction of light striking the retina will be
C The direction of light striking the retina will be firstly on the sensory nerves. Then the light striked primarily on ganglionic cells which pass the impulse to bipolor neurons through which it moves to photosensory cells. Hence, the correct direction of light striking the retina is-
AMU-2010
Neural Control and Coordination
284917
The optic lobes in humans are represented by the corpora
1 Bigemina
2 Arenacea
3 Striata
4 Quadrigemina
Explanation:
D The optic lobes in humans are represented by the corpora quadrigemina. The corpora quadrigemina are reflex centre's involving vision and hearing. It basically connects the forebrain and the hind brain. They play important role in processing, particular in visual and auditory functions. The quadrigemina are consists of two part :- (i) superior colliculi. (ii) Inferior colliculi. Both contribute to the integration of sensory information, an important part of midbrain.
284914
The sound reception can be interpreted by :
1 Olfactory lobe
2 Cerebral hemisphere
3 Cerebellum
4 Medulla oblongata
Explanation:
B Sound reception, can be interpreted by the human auditory system, which includes the ears and brain. When sound wave enter the ear rich eardrum, causing vibration. This vibrations are transmitted to tiny bone, and amplify the sound and send to the inner ear. In the inner ear hair cell convert the vibration into electrical signals. The electrical signal transmitted to brain temporal lobes.
Rajasthan PMT-1998
Neural Control and Coordination
284915
Eustachian canal connects
1 Middle ear with external ear
2 Middle ear with internal ear
3 External ear with internal ear
4 Pharynx with middle ear
Explanation:
D The Eustachian canal also known as the Eustachian tube or auditory tube, connects the middle ear to the pharynx (the back of the throat). It help in equalizing air pressure on both side of the ear drum.
MGIMS Wardha-2008 / JIPMER-2010
Neural Control and Coordination
284916
The direction of light striking the retina will be
C The direction of light striking the retina will be firstly on the sensory nerves. Then the light striked primarily on ganglionic cells which pass the impulse to bipolor neurons through which it moves to photosensory cells. Hence, the correct direction of light striking the retina is-
AMU-2010
Neural Control and Coordination
284917
The optic lobes in humans are represented by the corpora
1 Bigemina
2 Arenacea
3 Striata
4 Quadrigemina
Explanation:
D The optic lobes in humans are represented by the corpora quadrigemina. The corpora quadrigemina are reflex centre's involving vision and hearing. It basically connects the forebrain and the hind brain. They play important role in processing, particular in visual and auditory functions. The quadrigemina are consists of two part :- (i) superior colliculi. (ii) Inferior colliculi. Both contribute to the integration of sensory information, an important part of midbrain.
284914
The sound reception can be interpreted by :
1 Olfactory lobe
2 Cerebral hemisphere
3 Cerebellum
4 Medulla oblongata
Explanation:
B Sound reception, can be interpreted by the human auditory system, which includes the ears and brain. When sound wave enter the ear rich eardrum, causing vibration. This vibrations are transmitted to tiny bone, and amplify the sound and send to the inner ear. In the inner ear hair cell convert the vibration into electrical signals. The electrical signal transmitted to brain temporal lobes.
Rajasthan PMT-1998
Neural Control and Coordination
284915
Eustachian canal connects
1 Middle ear with external ear
2 Middle ear with internal ear
3 External ear with internal ear
4 Pharynx with middle ear
Explanation:
D The Eustachian canal also known as the Eustachian tube or auditory tube, connects the middle ear to the pharynx (the back of the throat). It help in equalizing air pressure on both side of the ear drum.
MGIMS Wardha-2008 / JIPMER-2010
Neural Control and Coordination
284916
The direction of light striking the retina will be
C The direction of light striking the retina will be firstly on the sensory nerves. Then the light striked primarily on ganglionic cells which pass the impulse to bipolor neurons through which it moves to photosensory cells. Hence, the correct direction of light striking the retina is-
AMU-2010
Neural Control and Coordination
284917
The optic lobes in humans are represented by the corpora
1 Bigemina
2 Arenacea
3 Striata
4 Quadrigemina
Explanation:
D The optic lobes in humans are represented by the corpora quadrigemina. The corpora quadrigemina are reflex centre's involving vision and hearing. It basically connects the forebrain and the hind brain. They play important role in processing, particular in visual and auditory functions. The quadrigemina are consists of two part :- (i) superior colliculi. (ii) Inferior colliculi. Both contribute to the integration of sensory information, an important part of midbrain.
