Aptitude tests are commonly used in competitive exams for several reasons: Assessing Basic Skills : They measure fundamental skills such as numerical ability, logical reasoning, and verbal proficiency, which are essential for academic and professional fields. Standardization : These tests provide aRead more
Aptitude tests are commonly used in competitive exams for several reasons:
- Assessing Basic Skills : They measure fundamental skills such as numerical ability, logical reasoning, and verbal proficiency, which are essential for academic and professional fields.
- Standardization : These tests provide a standardized method to evaluate the abilities of all candidates, ensuring a fair comparison based on a common set of criteria.
- Predicting Success : Aptitude tests are designed to predict a candidate’s ability to succeed in future tasks, courses, or job roles. High scores often correlate with better performance in the relevant field.
- Identifying Potential : They help in identifying candidates with the potential to excel in specific areas, even if they lack prior knowledge or experience in those areas.
- Efficiency : Aptitude tests can quickly and efficiently screen large numbers of candidates, making the selection process more manageable.
- Eliminating Bias : By focusing on objective skills rather than subjective factors, aptitude tests help reduce biases that might arise from interviews or other subjective evaluation methods.
- Diagnostic Tool : These tests can diagnose strengths and weaknesses, helping candidates understand areas where they need improvement and aiding educators in tailoring their instruction accordingly.
Total Distance the train needs to cover, 120 m+ 130 m (platform length) = 250 m. Speed of the train is, 120 m/ 12 sec = 10 m/sec. (s=D/t) Now, to cover 250 meters at 10 meters per second, the train take, 250 m / 10 m/sec = 25 sec. Therefore, It will take 25 seconds to pass the platform.
Total Distance the train needs to cover,
120 m+ 130 m (platform length) = 250 m.
Speed of the train is,
120 m/ 12 sec = 10 m/sec. (s=D/t)
Now, to cover 250 meters at 10 meters per second, the train take,
250 m / 10 m/sec = 25 sec.
Therefore,
It will take 25 seconds to pass the platform.
See less