Pdf - Text of NPTEL IIT Video Lectures
... is a set of isolated points not a whole range, although it could happen, if the potential is completely crazy, you could have a whole range of points. For instance suppose I had a potential, which looks like this like the bottom of the bucket, then of course, these are all if you like minimum but no ...
... is a set of isolated points not a whole range, although it could happen, if the potential is completely crazy, you could have a whole range of points. For instance suppose I had a potential, which looks like this like the bottom of the bucket, then of course, these are all if you like minimum but no ...
Final Exam from Fall 2001
... table. Block A’s mass is 8kg and that of B is 4kg. The blocks are moving left and speeding up with acceleration 2m/s2. Let g = 10N/kg. a) [10 points] Draw free body diagrams of both blocks showing all forces acting on them, labeled as in class. ...
... table. Block A’s mass is 8kg and that of B is 4kg. The blocks are moving left and speeding up with acceleration 2m/s2. Let g = 10N/kg. a) [10 points] Draw free body diagrams of both blocks showing all forces acting on them, labeled as in class. ...
Momentum - Net Start Class
... 1. An 8 N force acts on a 5 kg object for 3 sec. What impulse is given the object? What change in momentum does this impulse cause? If the object’s initial velocity was 25 m/s. what is its final velocity? Ans: 24 Nsec; 24 Nsec; 29.8 m/s 2. A 6 N force acts on a 3 kg object for 10 sec. What will be t ...
... 1. An 8 N force acts on a 5 kg object for 3 sec. What impulse is given the object? What change in momentum does this impulse cause? If the object’s initial velocity was 25 m/s. what is its final velocity? Ans: 24 Nsec; 24 Nsec; 29.8 m/s 2. A 6 N force acts on a 3 kg object for 10 sec. What will be t ...
1st Sem. Practice and Review
... ____ 43. An arrow in a bow has 70 J of potential energy. Assuming no loss of energy to heat, how much kinetic energy will it have after it has been shot? a. 0 J b. 35 J c. 50 J d. 70 J e. 140 J ____ 44. A ball is thrown into the air with 100 J of kinetic energy, which is transformed to gravitational ...
... ____ 43. An arrow in a bow has 70 J of potential energy. Assuming no loss of energy to heat, how much kinetic energy will it have after it has been shot? a. 0 J b. 35 J c. 50 J d. 70 J e. 140 J ____ 44. A ball is thrown into the air with 100 J of kinetic energy, which is transformed to gravitational ...
Momentum
... Agent 0061/2 (better know as Johnny Bondage) is in a bit of trouble. He can either be hit by the bullet or by the car. ...
... Agent 0061/2 (better know as Johnny Bondage) is in a bit of trouble. He can either be hit by the bullet or by the car. ...
Static and Kinetic Friction
... daily basis. Frictional forces are everywhere. If you are sitting down right now, the friction between the seat and the fabric of your pants is keeping you from sliding onto the floor. If you are standing up then the friction between the floor and your shoes is preventing you from slipping. Friction ...
... daily basis. Frictional forces are everywhere. If you are sitting down right now, the friction between the seat and the fabric of your pants is keeping you from sliding onto the floor. If you are standing up then the friction between the floor and your shoes is preventing you from slipping. Friction ...
Physics 207: Lecture 2 Notes
... particles will accelerate towards each other when released. Let W+ be the work done on the positive charge by the negative charge. Let W– be the work done on the negative charge by the positive charge. While the charges are moving towards each other, which of the following statements is correct? (a) ...
... particles will accelerate towards each other when released. Let W+ be the work done on the positive charge by the negative charge. Let W– be the work done on the negative charge by the positive charge. While the charges are moving towards each other, which of the following statements is correct? (a) ...
Physics 131: Lecture 9 Notes
... You are going to pull two blocks (mA=4 kg and mB=6 kg) at constant acceleration (a= 2.5 m/s2) on a horizontal frictionless floor, as shown below. The rope connecting the two blocks can stand tension of only 9.0 N. Would the rope break ? ...
... You are going to pull two blocks (mA=4 kg and mB=6 kg) at constant acceleration (a= 2.5 m/s2) on a horizontal frictionless floor, as shown below. The rope connecting the two blocks can stand tension of only 9.0 N. Would the rope break ? ...
FREE Sample Here
... Topic: Newton's First Law of Motion 14) A roller coaster car at an amusement park carrying 1 passenger takes 3 min to make its ride from start to finish. Neglecting friction, a car with 5 passengers would take A) less time. B) the same time. C) more time. Answer: B Diff: 3 Topic: Newton's First Law ...
... Topic: Newton's First Law of Motion 14) A roller coaster car at an amusement park carrying 1 passenger takes 3 min to make its ride from start to finish. Neglecting friction, a car with 5 passengers would take A) less time. B) the same time. C) more time. Answer: B Diff: 3 Topic: Newton's First Law ...
Ch_11
... The figure shows a particle that can move from A to B along either path 1 or path 2 while a force is exerted on it. If there is a potential energy associated with the force, this is a conservative force. The work done by as the particle moves from A to B is independent of the path followed. © ...
... The figure shows a particle that can move from A to B along either path 1 or path 2 while a force is exerted on it. If there is a potential energy associated with the force, this is a conservative force. The work done by as the particle moves from A to B is independent of the path followed. © ...
PHYS 1443 – Section 501 Lecture #1
... Why is it so hard to put a beach ball under water while a piece of small steel sinks in the water? The water exerts force on an object immersed in the water. This force is called Buoyant force. How does the The magnitude of the buoyant force always equals the weight of Buoyant force work? the fluid ...
... Why is it so hard to put a beach ball under water while a piece of small steel sinks in the water? The water exerts force on an object immersed in the water. This force is called Buoyant force. How does the The magnitude of the buoyant force always equals the weight of Buoyant force work? the fluid ...
here
... The questions are not ordered by ease – look for the easiest questions and do them first. If you have not got the answer after 10 minutes – move on. No formula sheets allowed for the quizzes from now on. 1) Convert from km/h to m/s by dividing by 3.6. Calculate how far he goes while braking. N ...
... The questions are not ordered by ease – look for the easiest questions and do them first. If you have not got the answer after 10 minutes – move on. No formula sheets allowed for the quizzes from now on. 1) Convert from km/h to m/s by dividing by 3.6. Calculate how far he goes while braking. N ...
Classical central-force problem
In classical mechanics, the central-force problem is to determine the motion of a particle under the influence of a single central force. A central force is a force that points from the particle directly towards (or directly away from) a fixed point in space, the center, and whose magnitude only depends on the distance of the object to the center. In many important cases, the problem can be solved analytically, i.e., in terms of well-studied functions such as trigonometric functions.The solution of this problem is important to classical physics, since many naturally occurring forces are central. Examples include gravity and electromagnetism as described by Newton's law of universal gravitation and Coulomb's law, respectively. The problem is also important because some more complicated problems in classical physics (such as the two-body problem with forces along the line connecting the two bodies) can be reduced to a central-force problem. Finally, the solution to the central-force problem often makes a good initial approximation of the true motion, as in calculating the motion of the planets in the Solar System.