1. What is Φ_{s}?

a) Sphere

b) Cubicity

c) Sphericity

d) Void age

### View Answer

_{s}is defined as the measure of the roundness of a sphere, it is also the ratio of the surface area of same volume particle and the surface area of particle.

2. For a spherical particle of diameter D_{p}, Φ_{s} is ____

a) 0

b) 0.5

c) 1

d) 2

### View Answer

_{p}, Φ

_{s}= 1.

3. For any non-spherical particle, Sphericity is defined as _____

a) 6V_{p}/D_{p}P_{s}

b) 6V_{p}/P_{s}S_{p}

c) V_{p}/D_{p}S_{p}

d) 6V_{p}/D_{p}S_{p}

### View Answer

_{p}/D

_{p}S

_{p}, where D

_{p}is the diameter and V

_{p}and S

_{p}are volume and surface area respectively.

4. For a crushed material, Φ_{s} lies between _____

a) 0.6 to 0.8

b) 1 to 2

c) 1.2 to 1.8

d) 1.6 to 1.8

### View Answer

_{s}is calculated to be between 0.6 and 0.8.

5. For cubes and cylinders, what is Φ_{s}?

a) 0.65 and 0.50

b) 0.81 and 0.87

c) 0.660 and 0.556

d) 13.2 and 12.3

### View Answer

_{s}would be 0.81 and 0.87.

6. Which of the following gives the total volume of the particles?

a) m/P_{p}

b) D_{p}/ P_{p}

c) M_{v}/P_{p}

d) M_{v}/D_{p}

### View Answer

_{p}, where m is the total mass of the sample and D

_{p}is the diameter of the particle.

7. Which of the following gives the number of particles?

a) mV_{p}/P_{p}

b) D_{p}/ P_{p}

c) m/P_{p}V_{p}

d) M_{v}/D_{p}

### View Answer

_{p}V

_{p}, where m is the total mass of the sample, D

_{p}is the diameter and V

_{p}is the volume of particle.

8. Which of the following gives the total surface area of the particle?

a) N*S_{p}

b) V_{p}*S_{p}

c) S_{p}/D_{p}

d) S_{p}/V_{p}

### View Answer

_{p}, where N is the number of the particles and S

_{p}is the surface area of individual particle.

9. The two basic methods of analysis are ______

a) Cumulative and Affirmative

b) Cumulative and Frequency

c) Frequency and Affirmative

d) Affirmative and Conservative

### View Answer

10. What is N_{P}_{r}?

a) Pradtl Number

b) Peclet Number

c) Priyang Number

d) Prag Number