Exams › GATE › Technical
Consider a balanced doubly-reinforced concrete section. If the material and other sectional properties remain unchanged, for which of the following cases will the section become under-reinforced?
- Area of tension reinforcement is increased.
- Area of compression reinforcement is increased.
- Area of tension reinforcement is decreased.
- Area of compression reinforcement is decreased.
Correct answer: Area of tension reinforcement is decreased.
Solution
Decreasing the area of tension reinforcement reduces the tensile capacity of the section, which can lead to a situation where the concrete can fail in compression before the steel yields, thus making the section under-reinforced.
Related GATE Technical questions
- The three-dimensional state of stress at a point is given by σ = [[10, 0, 0],[0, 40, 0],[0, 0, 0]] MPa. The maximum shear stress at the point is
- A 2 m wide strip footing is founded at a depth of 1.5 m below the ground level in a homogeneous pure clay bed. The clay bed has unit cohesion of 40 kPa. Due to seasonal fluctuations of water table from peak summer to peak monsoon period, the net ultimate bearing capacity of the footing, as per Terzaghi’s theory, will
- Consider the statements P and Q.
P: Soil particles formed by mechanical weathering, and close to their origin are generally subrounded.
Q: A activity of the clay physically signifies its swell potential.
Which one of the following options is CORRECT?
- The number of degrees of freedom for a natural open channel flow with a mobile bed is
- The following table gives various components of Municipal Solid Waste (MSW) and a list of treatment/separation techniques.
Component of MSW
P - Ferrous metals
Q - Aluminum and copper
R - Food waste
S - Cardboard
Treatment/separation technique
i - Incineration
ii - Rapid composting
iii - Eddy current separator
iv - Magnetic separator
The CORRECT match is
- A car is travelling at a speed of 60 km/hr on a section of a National Highway having a downward gradient of 2%. The driver of the car suddenly observes a stopped vehicle on the car path at a distance of 130 m ahead, and applies brake. If the brake efficiency is 60%, coefficient of friction is 0.7, driver's reaction time is 2.5 s, and acceleration due to gravity is 9.81 m/s², the distance (in meters) required by the driver to bring the car to a safe stop lies in the range
⚔️ Practice GATE Technical free + battle 1v1 →