Difference between revisions of "Forest UCM NLM BlockOnIncline"
Jump to navigation
Jump to search
Line 78: | Line 78: | ||
:<math>\int dx = v_t \int \tanh \left ( k v_t t \right ) dt</math> | :<math>\int dx = v_t \int \tanh \left ( k v_t t \right ) dt</math> | ||
+ | |||
+ | |||
+ | Integral table <math>\Rightarrow</math> | ||
+ | |||
+ | ::<math>\int \tanh (x) dx = \ln \left ( \cosh (x) \right )</math> | ||
[[Forest_UCM_NLM#Block_on_incline_with_friction]] | [[Forest_UCM_NLM#Block_on_incline_with_friction]] |
Revision as of 13:46, 24 August 2014
the problem
Consider a block of mass m sliding down the inclined plane shown below with a frictional force that is given by
Find the blocks speed as a function of time.
Step 1: Identify the system
- The block is the system with the following external forces, A normal force, a gravitational force, and the force of friction.
Step 2: Choose a suitable coordinate system
- A coordinate system with one axis along the direction of motion may make solving the problem easier
Step 3: Draw the Free Body Diagram
Step 4: Define the Force vectors using the above coordinate system
Step 5: Used Newton's second law
Motion in the
direction described by Newton's second law is:- Notice a terminal velocity exists when
Insert the terminal velociy constant into Newton's second law
Integral table
Identities
substituting
Solving for
Integral table