1
GATE ME 2016 Set 1
Numerical
+1
-0
A rigid ball of weight $$100$$ $$N$$ is suspended with the help of a string. The ball is pulled by a horizontal force $$F$$ such that the string makes an angle of $${30^0}$$ with the vertical. The magnitude of force $$F$$ (in N) is __________
Your input ____
2
GATE ME 2016 Set 1
MCQ (Single Correct Answer)
+1
-0.3
The instantaneous stream-wise velocity of a turbulent flow is given as follows:
$$$u\left( {x,y,z,t} \right) = \overline u \left( {x,y,z} \right) + \mu '\left( {x,y,z,t} \right)$$$
The time - average of the fluctuating velocity $$u'(x,y,z,t)$$
3
GATE ME 2016 Set 1
Numerical
+2
-0
A steady laminar boundary layer is formed over a flat plate as shown in the figure. The free stream velocity of the fluid is $${U_0}.$$ The velocity profile at the inlet $$a$$-$$b$$ is uniform, while that at a downstream location $$c$$-$$d$$ is
given by $$u = {U_0}\left[ {2\left( {{y \over \delta }} \right) - {{\left( {{y \over \delta }} \right)}^2}} \right]$$
given by $$u = {U_0}\left[ {2\left( {{y \over \delta }} \right) - {{\left( {{y \over \delta }} \right)}^2}} \right]$$
The ratio of the mass flow rate, $$\mathop {m{}_{bd}}\limits^ \bullet ,$$ leaving through the horizontal section $$b$$-$$d$$ to that entering through the vertical section $$a$$-$$b$$ is
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4
GATE ME 2016 Set 1
Numerical
+2
-0
An inverted U-tube manometer is used to measure the pressure difference between two pipes $$A$$ and $$B,$$ as shown in the figure. Pipe $$A$$ is carrying oil (specific gravity $$= 0.8$$) and pipe $$B$$ is carrying water. The densities of air and water are $$1.16\,\,kg/{m^3}$$ and $$1000\,\,kg/{m^3},$$, respectively. The pressure difference between pipes $$A$$ and $$B$$ is _______________$$kPa.$$
$$Acceleration$$ $$due$$ $$to$$ $$gravity$$ $$g = 10\,m/{s^2}$$
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Paper analysis
Total Questions
Engineering Mathematics
8
Engineering Mechanics
4
Fluid Mechanics
4
Heat Transfer
4
Industrial Engineering
2
Machine Design
1
Production Engineering
10
Strength of Materials
7
Theory of Machines
3
Thermodynamics
4
Turbo Machinery
1
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