Boundary layer thickness is given by

‚âà√≠¬¨‚Ä¢ = 5.64 x/ (Re) ¬¨¬®≈í¬©

‚âà√≠¬¨‚Ä¢ = 6.64 x/ (Re) ¬¨¬®≈í¬©

‚âà√≠¬¨‚Ä¢ = 7.74 x/ (Re) ¬¨¬®≈í¬©

Shear stress at the middle of the plate is given by

T W = 0.964 p U INFINITY 2/2 (Re) 1/2

T W = 0.864 p U INFINITY 2/2 (Re) 1/2

T W = 0.764 p U INFINITY 2/2 (Re) 1/2

T W = 0.664 p U INFINITY 2/2 (Re) 1/2.

13 + Mcqs in Von Karmal Equation in Heat Transfer Page 1 McqOptions

1.	A plate 0.3 m long is placed at zero angle of incidence in a stream of 15 degree Celsius water moving at 1 m/s. Find out the maximum value of the normal component of velocity at thr trailing edge of the plate. For water at 15 degree Celsiusp = 998.9 kg /m3µ = 415.85 * 10 -2 kg/hr m
A.	1.6885 * 10 -2 m/s
B.	1.6885 * 10 -3 m/s
C.	1.6885 * 10 -4 m/s
D.	1.6885 * 10 -5 m/s
Answer» C. 1.6885 * 10 -4 m/s

Discussion

2.	Air at 25 degree Celsius flows over a flat surface with a sharp leading edge at 1.5 m/s. Find the value of Reynolds number. For air at 25 degree Celsius, kinematic viscosity = 15.53* 10n -6 m2/s
A.	38694
B.	12846
C.	48294
D.	76386
Answer» D. 76386

Discussion

3.	A plate 0.3 m long is placed at zero angle of incidence in a stream of 15 degree Celsius water moving at 1 m/s. Find out the maximum boundary layer thickness. For water at 15 degree Celsius. For water at 15 degree Celsiusp = 998.9 kg /m3µ = 415.85 * 10 -2 kg/hr m
A.	4.945 m
B.	3.945 m
C.	2.945 m
D.	1.945 m
Answer» D. 1.945 m

Discussion

4.	Air at 25 degree Celsius flows over a flat surface with a sharp leading edge at 1.5 m/s. Find the boundary layer thickness at 0.5 from the leading edge. For air at 25 degree Celsius, kinematic viscosity = 15.53* 10n -6 m2/s
A.	4.1376 cm
B.	3.1376 cm
C.	2.1376 cm
D.	1.1376 cm
Answer» E.

Discussion

5.	A plate 0.3 m long is placed at zero angle of incidence in a stream of 15 degree Celsius water moving at 1 m/s. Find out the stream wise velocity component at the mid-point of the boundary layer. For water at 15 degree Celsiusp = 998.9 kg /m3µ = 415.85 * 10 -2 kg/hr m
A.	0.736 m/s
B.	0.636 m/s
C.	0.536 m/s
D.	0.436 m/s
Answer» B. 0.636 m/s

Discussion

6.	Glycerin at 10 degree Celsius flows past a flat plate at 20 m/s. Workout the velocity components at a point P(x, y) in the fluid flow wherex = 2 m from the leading edge of the platey = 5 cm from the plate surfaceFor glycerin at 10 degree Celsius, kinematic viscosity = 2.79 * 10 -3 m2/s
A.	15.92 m/s and 0.0952 m/s
B.	16.92 m/s and 0.0952 m/s
C.	17.92 m/s and 0.0752 m/s
D.	18.92 m/s and 0.0752 m/s
Answer» C. 17.92 m/s and 0.0752 m/s

Discussion

7.	A_PLATE_0.3_M_LONG_IS_PLACED_AT_ZERO_ANGLE_OF_INCIDENCE_IN_A_STREAM_OF_15_DEGREE_CELSIUS_WATER_MOVING_AT_1_M/S._FIND_OUT_THE_MAXIMUM_VALUE_OF_THE_NORMAL_COMPONENT_OF_VELOCITY_AT_THR_TRAILING_EDGE_OF_THE_PLATE._FOR_WATER_AT_15_DEGREE_CELSIUS?$
A.
B.
Answer» C.

Discussion

8.	Air at 25 degree Celsius flows over a flat surface with a sharp leading edge at 1.5 m/s. Find the value of Reynolds number. For air at 25 degree Celsius, kinematic viscosity = 15.53* 10n ^-6 m²/?
A.	38694
B.	12846
C.	48294
D.	76386
Answer» D. 76386

Discussion

9.	Boundary layer thickness is given by
A.	‚âà√≠¬¨‚Ä¢ = 5.64 x/ (Re) <sup>¬¨¬®≈í¬©</sup>
B.	‚âà√≠¬¨‚Ä¢ = 5.64 x/ (Re) <sup>¬¨¬®≈í¬©</sup>
C.	‚âà√≠¬¨‚Ä¢ = 6.64 x/ (Re) <sup>¬¨¬®≈í¬©</sup>
D.	‚âà√≠¬¨‚Ä¢ = 7.74 x/ (Re) <sup>¬¨¬®≈í¬©</sup>
Answer» B. ‚âà√≠¬¨‚Ä¢ = 5.64 x/ (Re) <sup>¬¨¬®≈í¬©</sup>

Discussion

10.	Shear stress at the middle of the plate is given by
A.	T <sub>W</sub> = 0.964 p U <sub>INFINITY </sub><sup>2</sup>/2 (Re) <sup>1/2</sup>
B.	T <sub>W</sub> = 0.864 p U <sub>INFINITY </sub><sup>2</sup>/2 (Re) <sup>1/2</sup>
C.	T <sub>W</sub> = 0.764 p U <sub>INFINITY </sub><sup>2</sup>/2 (Re) <sup>1/2</sup>
D.	T <sub>W</sub> = 0.664 p U <sub>INFINITY </sub><sup>2</sup>/2 (Re) <sup>1/2</sup>.
Answer» E.

Discussion

11.	Local skin friction coefficient is given by
A.	0.646/ (Re)<sup> 1/2</sup>
B.	1.646/ (Re)<sup> 1/2</sup>
C.	2.646/ (Re)<sup> 1/2</sup>
D.	3.646/ (Re)<sup> 1/2</sup>
Answer» B. 1.646/ (Re)<sup> 1/2</sup>

Discussion

12.	Air at 25 degree Celsius flows over a flat surface with a sharp leading edge at 1.5 m/s. Find the boundary layer thickness at 0.5 from the leading edge. For air at 25 degree Celsius, kinematic viscosity = 15.53* 10n ^-6 m²/s
A.	4.1376 cm
B.	3.1376 cm
C.	2.1376 cm
D.	1.1376 cm
Answer» E.

Discussion

13.	A plate 0.3 m long is placed at zero angle of incidence in a stream of 15 degree Celsius water moving at 1 m/s. Find out the stream wise velocity component at the mid-point of the boundary layer. For water at 15 degree Celsius
A.
B.
Answer» B.

Discussion

Explore topic-wise MCQs in Heat Transfer.

A plate 0.3 m long is placed at zero angle of incidence in a stream of 15 degree Celsius water moving at 1 m/s. Find out the maximum value of the normal component of velocity at thr trailing edge of the plate. For water at 15 degree Celsiusp = 998.9 kg /m3µ = 415.85 * 10 -2 kg/hr m

Air at 25 degree Celsius flows over a flat surface with a sharp leading edge at 1.5 m/s. Find the value of Reynolds number. For air at 25 degree Celsius, kinematic viscosity = 15.53* 10n -6 m2/s

A plate 0.3 m long is placed at zero angle of incidence in a stream of 15 degree Celsius water moving at 1 m/s. Find out the maximum boundary layer thickness. For water at 15 degree Celsius. For water at 15 degree Celsiusp = 998.9 kg /m3µ = 415.85 * 10 -2 kg/hr m

Air at 25 degree Celsius flows over a flat surface with a sharp leading edge at 1.5 m/s. Find the boundary layer thickness at 0.5 from the leading edge. For air at 25 degree Celsius, kinematic viscosity = 15.53* 10n -6 m2/s

A plate 0.3 m long is placed at zero angle of incidence in a stream of 15 degree Celsius water moving at 1 m/s. Find out the stream wise velocity component at the mid-point of the boundary layer. For water at 15 degree Celsiusp = 998.9 kg /m3µ = 415.85 * 10 -2 kg/hr m

Glycerin at 10 degree Celsius flows past a flat plate at 20 m/s. Workout the velocity components at a point P(x, y) in the fluid flow wherex = 2 m from the leading edge of the platey = 5 cm from the plate surfaceFor glycerin at 10 degree Celsius, kinematic viscosity = 2.79 * 10 -3 m2/s

A_PLATE_0.3_M_LONG_IS_PLACED_AT_ZERO_ANGLE_OF_INCIDENCE_IN_A_STREAM_OF_15_DEGREE_CELSIUS_WATER_MOVING_AT_1_M/S._FIND_OUT_THE_MAXIMUM_VALUE_OF_THE_NORMAL_COMPONENT_OF_VELOCITY_AT_THR_TRAILING_EDGE_OF_THE_PLATE._FOR_WATER_AT_15_DEGREE_CELSIUS?$

Air at 25 degree Celsius flows over a flat surface with a sharp leading edge at 1.5 m/s. Find the value of Reynolds number. For air at 25 degree Celsius, kinematic viscosity = 15.53* 10n -6 m2/?

Boundary layer thickness is given by

Shear stress at the middle of the plate is given by

Local skin friction coefficient is given by

Air at 25 degree Celsius flows over a flat surface with a sharp leading edge at 1.5 m/s. Find the boundary layer thickness at 0.5 from the leading edge. For air at 25 degree Celsius, kinematic viscosity = 15.53* 10n -6 m2/s

A plate 0.3 m long is placed at zero angle of incidence in a stream of 15 degree Celsius water moving at 1 m/s. Find out the stream wise velocity component at the mid-point of the boundary layer. For water at 15 degree Celsius

Air at 25 degree Celsius flows over a flat surface with a sharp leading edge at 1.5 m/s. Find the value of Reynolds number. For air at 25 degree Celsius, kinematic viscosity = 15.53* 10n ^-6 m²/?

Air at 25 degree Celsius flows over a flat surface with a sharp leading edge at 1.5 m/s. Find the boundary layer thickness at 0.5 from the leading edge. For air at 25 degree Celsius, kinematic viscosity = 15.53* 10n ^-6 m²/s