Monday, March 4, 2013
Monday, March 22, 2010
Innovation topics
INNOVATION TOPIC 1
Elements of rigid body
Mechanics Kinematics
Mechanics of motion
Normal and tangential coordinates
Solid Mechanics
Fluid Mechanics
Pump/ centrifugal
coriolis force
Principles of moments
Reciprocating pumps
friction of the forces
Equilibrium of rigid bodies
statics of rigid bodies
Equation of rigid body in 3D
Fluid Dynamics
Centroid
Centre of gravity
Forces
Robotics
Translation motion
Rotating forces
Equilibrium analysis of statics
Types of drives
Waves on string
Newton’s law and application
Free body diagram
suspension
simple harmonic oscillator
Gravitational force
Curvilinear motion
Reaction force
Belt friction
Aero dynamics
Gear drive
Moments
Buoyant force
Vector triangle
Momentum(Non relativistic)
Mass moment of inertia
wedges and screws
Elastic body collision
Kinetic energy
Laws of mechanics and applications
Potential energy
screwed fasteners
Impulse momentum
Keplus law
Kinematics of a rigid body
Hydraulics
Belt and rope drive
Impact of two bodies
Transmissibility
Angular impulse- momentum relation
Forces on rigid body
Collision of inelastic bodies
Forces in space
Bridges and girde
Kinematics of rigid bodys
INNOVATION TOPIC 2
Moment of inertia
Kinetic of rigid body
Work energy method
Levers mechanism
Workdone
Friction
Types of support
Analysis of pin jointed plain trusses
Scalar and vector quandities
principal moments of inertia of plane areas
principal axes of inertia
impulse and momentum
Collar friction
Gear mechanism
Moments
Conveyers mechanism
Gear drives
Dealmbert law
Universal mechanism
Slider crank mechanism
Quick return mechanism
Relative velocity
Shear force and bending moment diagram
Parallel axis therom, perpendicular axis therom
Rigid body collision
product of inertia
principal and principal moment of inertia
motion on an inclined surface
motion on connected bodies
kinetics of particles- work energy method
consevation of energy
workdone by spring
motion of bullet and gun
period of restituion and co eff of restitution
analysis of pin jointed plane trusses
rolling resistance
mass moment of inertia of thin plate
Equivalent force-couple systems: The wrench
Equilibrium equations for a particle
Deflection of beams
Buckling of columns
Using Euler's laws for 2-D motion
Deflection of beams by superposition
kinetics of particles- curvilinear motion
mass moment of inertia of thin plate
Work-energy relation for a rigid body
Relative and constrained motion
Angular impulse-momentum relation
Observations relative to moving frames
polar coordinates
Torsion of a circular shaft
Types of support , beams and loads
Shear load and bending moment diagrams
applied mechanics in practice
Fracture mechanics
impact
Using Euler's laws for 2-D motion
Potential energy and kinetic energy
Elements of rigid body
Mechanics Kinematics
Mechanics of motion
Normal and tangential coordinates
Solid Mechanics
Fluid Mechanics
Pump/ centrifugal
coriolis force
Principles of moments
Reciprocating pumps
friction of the forces
Equilibrium of rigid bodies
statics of rigid bodies
Equation of rigid body in 3D
Fluid Dynamics
Centroid
Centre of gravity
Forces
Robotics
Translation motion
Rotating forces
Equilibrium analysis of statics
Types of drives
Waves on string
Newton’s law and application
Free body diagram
suspension
simple harmonic oscillator
Gravitational force
Curvilinear motion
Reaction force
Belt friction
Aero dynamics
Gear drive
Moments
Buoyant force
Vector triangle
Momentum(Non relativistic)
Mass moment of inertia
wedges and screws
Elastic body collision
Kinetic energy
Laws of mechanics and applications
Potential energy
screwed fasteners
Impulse momentum
Keplus law
Kinematics of a rigid body
Hydraulics
Belt and rope drive
Impact of two bodies
Transmissibility
Angular impulse- momentum relation
Forces on rigid body
Collision of inelastic bodies
Forces in space
Bridges and girde
Kinematics of rigid bodys
INNOVATION TOPIC 2
Moment of inertia
Kinetic of rigid body
Work energy method
Levers mechanism
Workdone
Friction
Types of support
Analysis of pin jointed plain trusses
Scalar and vector quandities
principal moments of inertia of plane areas
principal axes of inertia
impulse and momentum
Collar friction
Gear mechanism
Moments
Conveyers mechanism
Gear drives
Dealmbert law
Universal mechanism
Slider crank mechanism
Quick return mechanism
Relative velocity
Shear force and bending moment diagram
Parallel axis therom, perpendicular axis therom
Rigid body collision
product of inertia
principal and principal moment of inertia
motion on an inclined surface
motion on connected bodies
kinetics of particles- work energy method
consevation of energy
workdone by spring
motion of bullet and gun
period of restituion and co eff of restitution
analysis of pin jointed plane trusses
rolling resistance
mass moment of inertia of thin plate
Equivalent force-couple systems: The wrench
Equilibrium equations for a particle
Deflection of beams
Buckling of columns
Using Euler's laws for 2-D motion
Deflection of beams by superposition
kinetics of particles- curvilinear motion
mass moment of inertia of thin plate
Work-energy relation for a rigid body
Relative and constrained motion
Angular impulse-momentum relation
Observations relative to moving frames
polar coordinates
Torsion of a circular shaft
Types of support , beams and loads
Shear load and bending moment diagrams
applied mechanics in practice
Fracture mechanics
impact
Using Euler's laws for 2-D motion
Potential energy and kinetic energy
Subscribe to:
Comments (Atom)