During contraction and relaxation of striated muscle fibre the length of A band usually :-

H-zone of striated muscle fibre represents both thick and thin filaments.

Non-striated muscle and striated muscle

Distinguish between Cardiac muscle and striated muscle

Striated muscles gets fatigued rapidly.

During Searle's experiment, zero of the Vernier sacle lies between 3.20 xx 10^(-2), and 3.25 xx 10^(-2)m of the main scale. The 20^(th) division of the Vernier scale exactly coincides with one of the main scale divisions. When an additional load of 2kg is applied to the wire, the zero of the vernier scale still lies between 3.20 xx 10^(-2), and 3.25 xx 10^(-2)m of the main scale but now the 45^(th) division of Vernier scale coincide with one of the main scale divisions. the length of the thin metallic wire is 2m and its cross-sectional ares is 8 xx 10^(-7)m^(2) . the least count of the Vernier scale is 1.0 xx 10^(-5)m . the maximum percentage error in the Young's modulus of the wire is

The human ciculatory system can be thought of as a closed system of interconnecting pipes through which fluid is continuously circulated by two pumps the two pumps the right and left verticles of the heart, work as simple two-stroke force pumps. The muscles of the heart regulate the force by contracting and relaxing. the contraction (systole) lasts about 0.2s and a complete systole/diastole (contraction/relaxation) cycle lasts about 0.8s. For flood pressures and speeds in the normal range. the volume flow rate of blood through a blood vessel is directly proportional tot he pressure difference over a length of the vessel and to the fourth power of the radius of the vessel. The total mechanical energy per unit volume of blood just as it leaves the heart is E//V=rhogh+P+rhov^(2) Q. Why is diastolic blood pressure muchh lower than systolic pressure?

The human ciculatory system can be thought of as a closed system of interconnecting pipes through which fluid is continuously circulated by two pumps the two pumps the right and left verticles of the heart, work as simple two-stroke force pumps. The muscles of the heart regulate the force by contracting and relaxing. the contraction (systole) lasts about 0.2s and a complete systole/diastole (contraction/relaxation) cycle lasts about 0.8s. For flood pressures and speeds in the normal range. the volume flow rate of blood through a blood vessel is directly proportional tot he pressure difference over a length of the vessel and to the fourth power of the radius of the vessel. The total mechanical energy per unit volume of blood just as it leaves the heart is E//V=rhogh+P+rhov^(2) Q. Which of the following is a way to achieve approximately a 45% increase in the volume flow rate of blood through a blood vessel?