Question
The engine of a motor cycle can produce maximum acceleration 5 m/sec2. Its breaks can produce a maximum retardation 10 m/sec2. What is minimum time in which it can cover a distance of 1.5 km:
Found 4 tutors discussing this question
Discuss this question LIVE
6 mins ago
Text solutionVerified
[d] For tmin motion of particle is shown in v−t graph isFor accelerating motion v0t0=5 ...(i)Distance = area of v−t curve From equation (i), (ii) & (iii) T=30sec Ans.
Was this solution helpful?
150
Share
Report
One destination to cover all your homework and assignment needs
Learn Practice Revision Succeed
Instant 1:1 help, 24x7
60, 000+ Expert tutors
Textbook solutions
Big idea maths, McGraw-Hill Education etc
Essay review
Get expert feedback on your essay
Schedule classes
High dosage tutoring from Dedicated 3 experts
Practice questions from similar books
Question 1
A body is thrown vertically upwards from the ground. It reaches a maximum height of in . After what time it will reach the ground from its maximum height position ?Question 2
A ball is droped from a high rise platform starting from rest. After another ball is thrown downwards from the same platform with a speed . The two balls meet at . What is the value of ?Question 3
On a long horizontally moving belt (Fig.), a child runs to and fro with a speed (with respect to the belt) between his father and mother located 50 m apart on the moving belt. The belt moves with a speed of . For an observer on a stationary platform outside, what is the(a) speed of the child running in the direction of motion of the belt ?
(b) speed of the child running opposite to the direction of motion of the belt ?
(c) time taken by the child in (a) and (b)
Stuck on the question or explanation?
Connect with our physics tutors online and get step by step solution of this question.
231 students are taking LIVE classes
Question Text | The engine of a motor cycle can produce maximum acceleration 5 m/sec2. Its breaks can produce a maximum retardation 10 m/sec2. What is minimum time in which it can cover a distance of 1.5 km: |
Answer Type | Text solution:1 |
Upvotes | 150 |