Skip to main content

Society & Environment - Questions from AMIE Exams

Match the person with fact associated.

Person

  1. Sunita Williams
  2. Sunita Rao
  3. Sania Mirza
  4. Bob Woolmer
  5. Laxmi Mittal
  6. Vishwanathan Anand
  7. Kartikeyan
  8. Dhanraj Pillai
  9. Anjali Bhagwat
  10. Jaspal Rana

Related fact

  1. Cricket coach murdered
  2. Chess
  3. pistol event
  4. Walked into space
  5. Famous steel magnet
  6. Tennis player
  7. Hockey
  8. Car race 
  9. Indian shooter
  10. Tennis player

Answers

  • Sunita Williams - Walked into space
  • Sunita Rao - Tennis player
  • Sania Mirza - Tennis player
  • Bob Woolmer - Cricket coach murdered
  • Laxmi Mittal - Famous steel magnet
  • Vishwanathan Anand - Chess
  • Kartikeyan - Car race
  • Dhanraj Pillai - Hockey
  • Anjali Bhagwat - Indian shooter
  • Jaspal Rana - Pistol event

---

 
The study material for AMIE/B Tech/Junior Engineer exams is available at https://amiestudycircle.com

Labels:

Comments

Post a Comment

Popular posts from this blog

Mechanics of Fluids (Solved Numerical Problems)

Numerical The surface Tension of water in contact with air at 20°C is 0.0725 N/m. The pressure inside a droplet of water is to be 0.02 N/cm² greater than the outside pressure. Calculate the diameter of the droplet of water. (7 marks) (AMIE Summer 2023) Solution Surface tension, σ = 0.0725 N/m Pressure intensity, P = 0.02 N/m 2 P = 4σ/d Hence, the Diameter of the dropd = 4 x 0.0725/200 = 1.45 mm Numerical Find the surface tension in a soap bubble of 40 mm diameter when the inside pressure is 2.5 N/m² above atmospheric pressure. (7 marks) (AMIE Summer 2023) Answer: 0.0125 N/m Numerical The pressure outside the droplet of water of diameter 0.04 mm is 10.32 N/cm² (atmospheric pressure). Calculate the pressure within the droplet if surface tension is given as 0.0725 N/m of water. (AMIE Summer 2023, 7 marks) Answer: 0.725 N/cm 2   Numerical An open lank contains water up to a depth of 2 m and above it an oil of specific gravity 0.9 for a depth of 1 m. Find the pressure intensity (i) at t...
Post a Comment
Read more

Geotechnical & Foundation Engineering (Solved Numerical Problems)

Numerical A 1000 cc core cutter weighing 946.80 g was used to find out the in-situ unit weight of an embankment. The weight of the core cutter filled with soil was noted to be 2770.60 g. Laboratory tests on the sample indicated a water content of 10.45 % and specific gravity of solids of 2.65. Determine the bulk unit weight, dry unit weight, void ratio, and degree of saturation of the sample. (AMIE Summer 2023, 8 marks) Solution Weight of soil in core cutter = 2770.60 - 946.80 = 1823.8 g Bulk unit weight, γ t = W/V = 1823.8/1000 = 1.82 g/ccDry unit weight, γ d = γ t /(1 + w) = 1.82/(1 + 0.1045) = 1.65 g/cc Void ratio, e = (G s γ w /γ d ) - 1 = (2.65 x 1.0/1.65) - 1 = 0.61 Degree of saturation, S = wG s /e = (0.1045 x 2.65)/0.61 = 0.4540 = 45.4% Numerical What is the theoretical height of the capillary rise and the capillary pressure in fine-grained soil with an effective size (D 10 ) of 0.002 mm? (AMIE Summer 2023, 4 marks) Solution D 10 = 0.002 mm;  Using the assumption that th...
Post a Comment
Read more

Solved Numerical Problems from Boiler Operation Engineer Exams

Properties of Steam
Post a Comment
Read more