Momentum and Collisions
... be applied (from Newton’s first law). The rate of change of momentum of an object is proportional to the resultant force acting on the object. This is an alternative way of stating Newton’s second law in terms of momentum. In a tennis match, when a player exerts a force on the ball, it changes momen ...
... be applied (from Newton’s first law). The rate of change of momentum of an object is proportional to the resultant force acting on the object. This is an alternative way of stating Newton’s second law in terms of momentum. In a tennis match, when a player exerts a force on the ball, it changes momen ...
kx F = The Spring
... that is equal in magnitude, but opposite in direction Hooke’s Law for the restoring force of an ideal spring. (It is s a conservative force.) ...
... that is equal in magnitude, but opposite in direction Hooke’s Law for the restoring force of an ideal spring. (It is s a conservative force.) ...
DEPARTMENT OF MATHEMATICS 2008 B.A./B.Sc.
... Idea of ε -δ definition of limit and continuity of a function. Indeterminate forms, statement of L’Hospital rule and its applications. Successive differentiation, leibnitz’s theorem and its applications. Rolle’s theorem and its geometric interpretation. Mean value theorem of Lagrange and Cuchy. Geom ...
... Idea of ε -δ definition of limit and continuity of a function. Indeterminate forms, statement of L’Hospital rule and its applications. Successive differentiation, leibnitz’s theorem and its applications. Rolle’s theorem and its geometric interpretation. Mean value theorem of Lagrange and Cuchy. Geom ...
Tutorial 7
... Since the satellite is moving at a constant speed, thus for a revolution around Earth, the time taken should be the same, i.e. angular velocity should be constant (same magnitude and direction) (b) linear velocity (varying) Since the direction of velocity is always changing, the linear velocity is v ...
... Since the satellite is moving at a constant speed, thus for a revolution around Earth, the time taken should be the same, i.e. angular velocity should be constant (same magnitude and direction) (b) linear velocity (varying) Since the direction of velocity is always changing, the linear velocity is v ...
