Question
Easy
Solving time: 3 mins
A block of mass m is kept on a horizontal table. If the static friction coefficient is μ, find the frictional force acting on the block.
Found 8 tutors discussing this question
Discuss this question LIVE
13 mins ago
Text solutionVerified
A block of mass m is kept on a horizontal table. If force is applied on the block, a friction force will be there: p → frictional force and F → applied force.
So, friction force is equal to the applied force. One of the case is that the friction force is equals to zero when the applied force is equal to zero.
So, friction force is equal to the applied force. One of the case is that the friction force is equals to zero when the applied force is equal to zero.
Was this solution helpful?
67
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 Concepts of Physics (HC Verma Part I)
Question 1
Easy
Views: 5,417
Question 2
Medium
Views: 6,337
Question 3
Medium
Views: 6,270
Question 4
Hard
Views: 6,124
Practice more questions from Laws of motion
Question 1
Hard
Views: 5,771
(A) Find the load, effort arm, length of crow bar from the given data.
(B) Use the principle of lever, i.e., load load arm effort effort arm.
(C) Here, load arm = length of crow bar - length of effort arm.
(D) Substitute the values in the above formula and find the effort required.
Question 2
Hard
Views: 6,062
Practice questions on similar concepts asked by Filo students
Question 2
Views: 5,573
Question 3
Views: 5,639
Question 4
Views: 5,916
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 | A block of mass m is kept on a horizontal table. If the static friction coefficient is μ, find the frictional force acting on the block. |
Topic | Laws of motion |
Subject | Physics |
Class | Class 11 |
Answer Type | Text solution:1 |
Upvotes | 67 |