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Week - 1 |
Physics and Measurement:
a) Standards of length, mass and time
b) Dimensional analysis.
c) Significant figures |
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Week - 2 |
Vectors:
a) Coordinate systems
b) Vectoral and scalar quantities
c) Some properties of vectors
d) Components of a vector and unit vectors
e) Multiplication of two vectors |
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Week - 3 |
Motion in one dimension:
a) Position, velocity and speed
b) Instantaneous velocity and speed
c) Acceleration
d) Motion in one dimension with constant acceleration
e) Freely falling objects |
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Week - 4 |
Motion in two dimensions
a) The position, velocity and acceleration vectors
b) Two-dimensional motion with constant acceleration
c) Projectile motion
d) Uniform circular motion
e) Tangential and radial acceleration
f) Relative velocity and relative acceleration |
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Week - 5 |
Laws of Motion: a) The concept of force b) First law of Newton and inertial systems c) Mass d) Second law of Newton e) Third law of Newton f) Some applications of Newton laws g) Frictional force h) Uniform circular motion ı) Nonuniform circular motion i) Motion in accelerated frames |
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Week - 6 |
Laws of Motion: a) The concept of force b) First law of Newton and inertial systems c) Mass d) Second law of Newton e) Third law of Newton f) Some applications of Newton laws g) Frictional force h) Uniform circular motion ı) Nonuniform circular motion i) Motion in accelerated frames |
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Week - 7 |
Work and Kinetic Energy:
a) Work done by a constant force
b) Work done by a variable force
c) Kinetic energy and theorem of work-kinetic energy
d) Power |
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Week - 8 |
Potential Energy and Conservation Of Energy: a) Potential energy b) Conservative and nonconservative forces c) Conservative forces and potential energy d) Conservation of mechanical energy e) Work done by nonconservative forces |
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Week - 9 |
Linear Momentum and Collisions:
a) Linear momentum and conservation of linear momentum
b) Impuls and momentum
c) Collisions
d) Elastic and inelastic collisions in one dimension
e) Collisions in two dimensions
f) Center of mass
g) Motion of a system of particles |
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Week - 10 |
Rotation of a Rigid Object About a Fixed Axis: a) Angular position, velocity and acceleration b) Rotational kinematics: rotational motion with constant angular acceleration c) Angular and linear quantities d) Rotational kinetic energy e) Calculation of moments of inertia |
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Week - 11 |
Rotation of a Rigid Object About a Fixed Axis (Continues):
f) Torque
g) Relation between torque and angular acceleration
h) Work, power and energy in rotational motion |
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Week - 12 |
Rotation of a Rigid Object About a Fixed Axis (Continues):
f) Torque
g) Relation between torque and angular acceleration
h) Work, power and energy in rotational motion |
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Week - 13 |
Rolling Motion and Angular Momentum: a) Rolling motion of a rigid object b) Angular momentum of a particle c) Angular momentum of a rotating rigid object d) Conservation of angular momentum |
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Week - 14 |
Static Equilibrium: a) The Conditions for equilibrium b) Center of gravity c) Examples to rigid objects in static equilibrium |
Eskisehir Technical University Info Package 
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