derive the formula v= u + at by graphical means
No spams pls
I will mark it as the brainliest.
Answers
Answer:
the answer to that question is in the attachment
pls mark as brainliest if you are satisfied
Answer:
hloo..
.
Derivation of v=u +at
Derivation of v=u +atInitial velocity u at A =OA
Derivation of v=u +atInitial velocity u at A =OAVelocity changes from A To B in time t(uniform acceleration a)
Derivation of v=u +atInitial velocity u at A =OAVelocity changes from A To B in time t(uniform acceleration a)Final Velocity v=BC
Derivation of v=u +atInitial velocity u at A =OAVelocity changes from A To B in time t(uniform acceleration a)Final Velocity v=BCBC=BD+DC
Derivation of v=u +atInitial velocity u at A =OAVelocity changes from A To B in time t(uniform acceleration a)Final Velocity v=BCBC=BD+DCv=BD+Ao
Derivation of v=u +atInitial velocity u at A =OAVelocity changes from A To B in time t(uniform acceleration a)Final Velocity v=BCBC=BD+DCv=BD+Aov=BD+u
Derivation of v=u +atInitial velocity u at A =OAVelocity changes from A To B in time t(uniform acceleration a)Final Velocity v=BCBC=BD+DCv=BD+Aov=BD+uSlope of velocity time graph is equal to acceleration a.
Derivation of v=u +atInitial velocity u at A =OAVelocity changes from A To B in time t(uniform acceleration a)Final Velocity v=BCBC=BD+DCv=BD+Aov=BD+uSlope of velocity time graph is equal to acceleration a.BD=at.
Derivation of v=u +atInitial velocity u at A =OAVelocity changes from A To B in time t(uniform acceleration a)Final Velocity v=BCBC=BD+DCv=BD+Aov=BD+uSlope of velocity time graph is equal to acceleration a.BD=at.Therefore v=u+at.
Derivation of v=u +atInitial velocity u at A =OAVelocity changes from A To B in time t(uniform acceleration a)Final Velocity v=BCBC=BD+DCv=BD+Aov=BD+uSlope of velocity time graph is equal to acceleration a.BD=at.Therefore v=u+at.Hence proved...
.
.
please mark as brainlist...