MCQOPTIONS
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MCQOPTIONS
This section includes 14 Mcqs, each offering curated multiple-choice questions to sharpen your Concrete Technology knowledge and support exam preparation. Choose a topic below to get started.
| 1. |
Referring to the graph below, what is the approximate value of strength of 50mm cube in MPa for gel-space ratio .8? |
| A. | 20 |
| B. | 40 |
| C. | 60 |
| D. | 80 |
| Answer» E. | |
| 2. |
According to figure, what is the approximate value of strength of 50mm cube in MPa for gel-space ratio .6? |
| A. | 20 |
| B. | 40 |
| C. | 60 |
| D. | 80 |
| Answer» C. 60 | |
| 3. |
Gel/Space ratio = x = Volume of gel / Space available = 0.657 C / 0.319 C+ Wo. Here Wo stands for? |
| A. | Weight of cement in kg |
| B. | Weight of cement in g |
| C. | Volume of gel |
| D. | Volume of mixing water in ml |
| Answer» E. | |
| 4. |
What does x3 in power’s experiment stands for? |
| A. | Gel space ratio |
| B. | Water cement ratio |
| C. | Intrinsic strength of gel |
| D. | Extrinsic strength of gel |
| Answer» B. Water cement ratio | |
| 5. |
What does 240 in power’s experiment stand for? |
| A. | Gel space ratio |
| B. | Water cement ratio |
| C. | Intrinsic strength of gel |
| D. | Extrinsic strength of gel |
| Answer» D. Extrinsic strength of gel | |
| 6. |
Power showed that the strength of concrete bears a specific relationship with the gel/space ratio. He found the relationship to be __________ |
| A. | 240x3 |
| B. | 140x3 |
| C. | 240x2 |
| D. | 140x2 |
| Answer» B. 140x3 | |
| 7. |
ACCORDING_TO_FIG._WHAT_IS_THE_APPROX._VALUE_OF_STRENGTH_OF_50MM_CUBE_IN_MPA_FOR_GEL-SPACE_RATIO_.6??$ |
| A. | 20 |
| B. | 40 |
| C. | 60 |
| D. | 80 |
| Answer» C. 60 | |
| 8. |
Gel/Space ratio = x = Volume of gel / Space available = 0.657 C / 0.319 C+ Wo. Here C stands for? |
| A. | Weight of cement in kg |
| B. | Weight of cement in g |
| C. | Volume of gel |
| D. | Volume of mixing water in ml |
| Answer» C. Volume of gel | |
| 9. |
What unit is present with the 240? |
| A. | Pa |
| B. | MPa |
| C. | GPa |
| D. | KPa |
| Answer» C. GPa | |
| 10. |
What does x3 in power’s experiment stands for?$ |
| A. | Gel space ratio |
| B. | Water cement ratio |
| C. | Intrinsic strength of gel |
| D. | Extrinsic strength of gel |
| Answer» B. Water cement ratio | |
| 11. |
What does 240 in power’s experiment stands for?$ |
| A. | Gel space ratio |
| B. | Water cement ratio |
| C. | Intrinsic strength of gel |
| D. | Extrinsic strength of gel |
| Answer» D. Extrinsic strength of gel | |
| 12. |
Power showed that the strength of concrete bears a specific relationship with the gel/space ratio. He found the relationship to be __________ |
| A. | 240x<sup>3</sup> |
| B. | 140x<sup>3</sup> |
| C. | 240x<sup>2</sup> |
| D. | 140x<sup>2</sup> |
| Answer» B. 140x<sup>3</sup> | |
| 13. |
Who has established the relation between the strength and gel/space ratio? |
| A. | Abrams |
| B. | Power |
| C. | Brownyard |
| D. | Power and Brownyard |
| Answer» E. | |
| 14. |
What is the gel/space ratio? |
| A. | Volume of water to the volume of cement |
| B. | Volume of the hydrated cement paste to the sum of volumes of the hydrated cement |
| C. | Volume of the hydrated cement paste to the sum of volumes of the hydrated cement and of the capillary pores |
| D. | Volume of gel to the volume of space present in concrete |
| Answer» D. Volume of gel to the volume of space present in concrete | |