238188
Statement A: All the locomotions are movements. Statement B: All the movements are not locomotions.
1 Statement A and B both are correct
2 Statement A is true but \(B\) is false
3 Statement \(A\) and \(B\) both are false
4 Statement \(A\) is false but \(B\) is True
Explanation:
Exp. A Movement is one of the significant features of living beings. Some of the movements result in a change of place or location. Such voluntary movements are called locomotion. All the locomations are movements but all movements are not locomotion.
The organs that help an animal to move, are know as locomotory organs. - Locomotory organs in Asterias (star fish) is tube feet, which are found as part of water vascular system. - Locomotory structure in paramecium is cilia. They are characterized by the presence of thousands of cilia covering their body. - Locomotory organ of euglena is flagella.
BHU PMT (Mains)-2010
Locomotion and Movement
238185
The long non motile cilia like processes present in the epididymis are
1 Stereocilia
2 Microvilli
3 Brush border cilia
4 Villi
Explanation:
Exp. A Stereocillia are long, non-motile cilia-like projections that are found in the epididymis. They are made up of actin filaments and help to increase the surface area of the cell, allowing for greater absorption and secretion.
Shift-I
Locomotion and Movement
238189
The amoeboid movement results from
1 Interactions among actin, myosin and ATP, etc
2 Coordinated beats of cilia
3 Whip-like action of flagella
4 Actin by the mitotic spindle, similar so, what happens during mitosis and meiosis
Explanation:
Exp. A The amoeboid movement results from interactions among actin, myosin and ATP etc. - At present it is know that motive force in amoeba is generated by sliding interactions between acting and myosin filament in a way comparable to that occurring in muscle cell. Actin and myosin filaments as a foundation of contractile system are well established from in amoeba.
AMU-2015
Locomotion and Movement
238191
Folding and unfolding of actin and myosin leads to amoeboid movement. This is hypothesized by:
1 Allen
2 Goldacre and Lorsch
3 Berthold
4 Jennings
Explanation:
The cytoplasmic contents convert from plasma sol to plasma gel at various portions within the cell causing movement - The movement of amoeba is explained via the molecular folding and unfolding theory proposed by Goldacre and Lorsch.
238188
Statement A: All the locomotions are movements. Statement B: All the movements are not locomotions.
1 Statement A and B both are correct
2 Statement A is true but \(B\) is false
3 Statement \(A\) and \(B\) both are false
4 Statement \(A\) is false but \(B\) is True
Explanation:
Exp. A Movement is one of the significant features of living beings. Some of the movements result in a change of place or location. Such voluntary movements are called locomotion. All the locomations are movements but all movements are not locomotion.
The organs that help an animal to move, are know as locomotory organs. - Locomotory organs in Asterias (star fish) is tube feet, which are found as part of water vascular system. - Locomotory structure in paramecium is cilia. They are characterized by the presence of thousands of cilia covering their body. - Locomotory organ of euglena is flagella.
BHU PMT (Mains)-2010
Locomotion and Movement
238185
The long non motile cilia like processes present in the epididymis are
1 Stereocilia
2 Microvilli
3 Brush border cilia
4 Villi
Explanation:
Exp. A Stereocillia are long, non-motile cilia-like projections that are found in the epididymis. They are made up of actin filaments and help to increase the surface area of the cell, allowing for greater absorption and secretion.
Shift-I
Locomotion and Movement
238189
The amoeboid movement results from
1 Interactions among actin, myosin and ATP, etc
2 Coordinated beats of cilia
3 Whip-like action of flagella
4 Actin by the mitotic spindle, similar so, what happens during mitosis and meiosis
Explanation:
Exp. A The amoeboid movement results from interactions among actin, myosin and ATP etc. - At present it is know that motive force in amoeba is generated by sliding interactions between acting and myosin filament in a way comparable to that occurring in muscle cell. Actin and myosin filaments as a foundation of contractile system are well established from in amoeba.
AMU-2015
Locomotion and Movement
238191
Folding and unfolding of actin and myosin leads to amoeboid movement. This is hypothesized by:
1 Allen
2 Goldacre and Lorsch
3 Berthold
4 Jennings
Explanation:
The cytoplasmic contents convert from plasma sol to plasma gel at various portions within the cell causing movement - The movement of amoeba is explained via the molecular folding and unfolding theory proposed by Goldacre and Lorsch.
238188
Statement A: All the locomotions are movements. Statement B: All the movements are not locomotions.
1 Statement A and B both are correct
2 Statement A is true but \(B\) is false
3 Statement \(A\) and \(B\) both are false
4 Statement \(A\) is false but \(B\) is True
Explanation:
Exp. A Movement is one of the significant features of living beings. Some of the movements result in a change of place or location. Such voluntary movements are called locomotion. All the locomations are movements but all movements are not locomotion.
The organs that help an animal to move, are know as locomotory organs. - Locomotory organs in Asterias (star fish) is tube feet, which are found as part of water vascular system. - Locomotory structure in paramecium is cilia. They are characterized by the presence of thousands of cilia covering their body. - Locomotory organ of euglena is flagella.
BHU PMT (Mains)-2010
Locomotion and Movement
238185
The long non motile cilia like processes present in the epididymis are
1 Stereocilia
2 Microvilli
3 Brush border cilia
4 Villi
Explanation:
Exp. A Stereocillia are long, non-motile cilia-like projections that are found in the epididymis. They are made up of actin filaments and help to increase the surface area of the cell, allowing for greater absorption and secretion.
Shift-I
Locomotion and Movement
238189
The amoeboid movement results from
1 Interactions among actin, myosin and ATP, etc
2 Coordinated beats of cilia
3 Whip-like action of flagella
4 Actin by the mitotic spindle, similar so, what happens during mitosis and meiosis
Explanation:
Exp. A The amoeboid movement results from interactions among actin, myosin and ATP etc. - At present it is know that motive force in amoeba is generated by sliding interactions between acting and myosin filament in a way comparable to that occurring in muscle cell. Actin and myosin filaments as a foundation of contractile system are well established from in amoeba.
AMU-2015
Locomotion and Movement
238191
Folding and unfolding of actin and myosin leads to amoeboid movement. This is hypothesized by:
1 Allen
2 Goldacre and Lorsch
3 Berthold
4 Jennings
Explanation:
The cytoplasmic contents convert from plasma sol to plasma gel at various portions within the cell causing movement - The movement of amoeba is explained via the molecular folding and unfolding theory proposed by Goldacre and Lorsch.
238188
Statement A: All the locomotions are movements. Statement B: All the movements are not locomotions.
1 Statement A and B both are correct
2 Statement A is true but \(B\) is false
3 Statement \(A\) and \(B\) both are false
4 Statement \(A\) is false but \(B\) is True
Explanation:
Exp. A Movement is one of the significant features of living beings. Some of the movements result in a change of place or location. Such voluntary movements are called locomotion. All the locomations are movements but all movements are not locomotion.
The organs that help an animal to move, are know as locomotory organs. - Locomotory organs in Asterias (star fish) is tube feet, which are found as part of water vascular system. - Locomotory structure in paramecium is cilia. They are characterized by the presence of thousands of cilia covering their body. - Locomotory organ of euglena is flagella.
BHU PMT (Mains)-2010
Locomotion and Movement
238185
The long non motile cilia like processes present in the epididymis are
1 Stereocilia
2 Microvilli
3 Brush border cilia
4 Villi
Explanation:
Exp. A Stereocillia are long, non-motile cilia-like projections that are found in the epididymis. They are made up of actin filaments and help to increase the surface area of the cell, allowing for greater absorption and secretion.
Shift-I
Locomotion and Movement
238189
The amoeboid movement results from
1 Interactions among actin, myosin and ATP, etc
2 Coordinated beats of cilia
3 Whip-like action of flagella
4 Actin by the mitotic spindle, similar so, what happens during mitosis and meiosis
Explanation:
Exp. A The amoeboid movement results from interactions among actin, myosin and ATP etc. - At present it is know that motive force in amoeba is generated by sliding interactions between acting and myosin filament in a way comparable to that occurring in muscle cell. Actin and myosin filaments as a foundation of contractile system are well established from in amoeba.
AMU-2015
Locomotion and Movement
238191
Folding and unfolding of actin and myosin leads to amoeboid movement. This is hypothesized by:
1 Allen
2 Goldacre and Lorsch
3 Berthold
4 Jennings
Explanation:
The cytoplasmic contents convert from plasma sol to plasma gel at various portions within the cell causing movement - The movement of amoeba is explained via the molecular folding and unfolding theory proposed by Goldacre and Lorsch.
238188
Statement A: All the locomotions are movements. Statement B: All the movements are not locomotions.
1 Statement A and B both are correct
2 Statement A is true but \(B\) is false
3 Statement \(A\) and \(B\) both are false
4 Statement \(A\) is false but \(B\) is True
Explanation:
Exp. A Movement is one of the significant features of living beings. Some of the movements result in a change of place or location. Such voluntary movements are called locomotion. All the locomations are movements but all movements are not locomotion.
The organs that help an animal to move, are know as locomotory organs. - Locomotory organs in Asterias (star fish) is tube feet, which are found as part of water vascular system. - Locomotory structure in paramecium is cilia. They are characterized by the presence of thousands of cilia covering their body. - Locomotory organ of euglena is flagella.
BHU PMT (Mains)-2010
Locomotion and Movement
238185
The long non motile cilia like processes present in the epididymis are
1 Stereocilia
2 Microvilli
3 Brush border cilia
4 Villi
Explanation:
Exp. A Stereocillia are long, non-motile cilia-like projections that are found in the epididymis. They are made up of actin filaments and help to increase the surface area of the cell, allowing for greater absorption and secretion.
Shift-I
Locomotion and Movement
238189
The amoeboid movement results from
1 Interactions among actin, myosin and ATP, etc
2 Coordinated beats of cilia
3 Whip-like action of flagella
4 Actin by the mitotic spindle, similar so, what happens during mitosis and meiosis
Explanation:
Exp. A The amoeboid movement results from interactions among actin, myosin and ATP etc. - At present it is know that motive force in amoeba is generated by sliding interactions between acting and myosin filament in a way comparable to that occurring in muscle cell. Actin and myosin filaments as a foundation of contractile system are well established from in amoeba.
AMU-2015
Locomotion and Movement
238191
Folding and unfolding of actin and myosin leads to amoeboid movement. This is hypothesized by:
1 Allen
2 Goldacre and Lorsch
3 Berthold
4 Jennings
Explanation:
The cytoplasmic contents convert from plasma sol to plasma gel at various portions within the cell causing movement - The movement of amoeba is explained via the molecular folding and unfolding theory proposed by Goldacre and Lorsch.
