Linear momentum Definition and 337 Threads

In Newtonian mechanics, linear momentum, translational momentum, or simply momentum (pl. momenta) is the product of the mass and velocity of an object. It is a vector quantity, possessing a magnitude and a direction. If m is an object's mass and v is its velocity (also a vector quantity), then the object's momentum is





p

=
m

v

.


{\displaystyle \mathbf {p} =m\mathbf {v} .}
In SI units, momentum is measured in kilogram meters per second (kg⋅m/s).
Newton's second law of motion states that the rate of change of a body's momentum is equal to the net force acting on it. Momentum depends on the frame of reference, but in any inertial frame it is a conserved quantity, meaning that if a closed system is not affected by external forces, its total linear momentum does not change. Momentum is also conserved in special relativity (with a modified formula) and, in a modified form, in electrodynamics, quantum mechanics, quantum field theory, and general relativity. It is an expression of one of the fundamental symmetries of space and time: translational symmetry.
Advanced formulations of classical mechanics, Lagrangian and Hamiltonian mechanics, allow one to choose coordinate systems that incorporate symmetries and constraints. In these systems the conserved quantity is generalized momentum, and in general this is different from the kinetic momentum defined above. The concept of generalized momentum is carried over into quantum mechanics, where it becomes an operator on a wave function. The momentum and position operators are related by the Heisenberg uncertainty principle.
In continuous systems such as electromagnetic fields, fluid dynamics and deformable bodies, a momentum density can be defined, and a continuum version of the conservation of momentum leads to equations such as the Navier–Stokes equations for fluids or the Cauchy momentum equation for deformable solids or fluids.

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  1. N

    Angular momentum linear momentum

    Hi all, If one were to hit a ball with a baseball bat on the far end of the bat, you could say that angular momentum is translated to linear momentum.(bat stops spinning, ball gains momentum). how do i translate angular momentum to linear momentum? thanks
  2. F

    How can we solve the ballistic pendulum problem using conservation of energy?

    Homework Statement A ballistic pendulum consisting of a heavy bob of mass M suspended form a fixed point by a thread of length l is at rest. A bullet of mass m and traveling horizontally at a speed v hits the bob and imbeds itself an the bob. As a result, the pendulum is deflected through a...
  3. C

    Conservation of angular momentum vs. linear momentum

    From a little bit of thinking, this is what I concluded: A system initially at rest can change its angular position without any outside torques (the final state will also be at rest). A system initially at rest cannot change its displacement without an outside force. In other words...
  4. L

    Conservation of linear momentum applied to rotating systems? (with picture)

    Homework Statement I've encountered problems like this: A bullet with velocity v strikes a stick (intially at rest) at a distance d from the center of mass, then the bullet sticks to it, and the bullet-stick system rotates about the center of mass. But they ask me to find weird things like the...
  5. P

    How Do You Calculate Potential Energy in a One-Dimensional Interaction?

    Homework Statement Consider a one-dimensional interaction of two bodies with equal masses m. The interaction is governed by a conservative force. The linear momentum of one of the bodies is equal to p1 = Pexp(-kx) and that of other body is equal to p0 at (infinity). Find the potential...
  6. D

    General question about linear momentum.

    This is the one thing I seem to still be very confused about. From what I understood, momentum is conserved if the net force on an isolated system, that is \frac{dP}{dt}, is equal to 0. But in some problems that I've worked through, I've always assumed the force due to gravity causes a change in...
  7. K

    Linear Momentum of Particle and Rod

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  8. M

    How Does Conservation of Energy Apply to a Theme Park Ride Through Water?

    Homework Statement On a ride in a theme park, a carriage of mass 450 kg is travels horizontally at a speed of 18 m s–1. It passes through a shallow tank containing stationary water. The tank is 9.3 m long. The carriage leaves the tank at a speed of 13 m s–1. e) For the carriage in (b)...
  9. D

    Is Linear Momentum Conserved in a Collision Between a Disk and Particle?

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  10. K

    Linear Momentum and the center of mass

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  11. M

    Angular momentum: why can't I answer this problem using linear momentum rules?

    Homework Statement A 1.0 g bullet is fired into a 0.5 kg block attached to the end of a 0.6 m nonuniform rod of mass 0.5 kg. The block-rod-bullet system then rotates in the plane of the figure about a fixed axis at A (the figure shows a vertical rod labeled A at its top. A block is attached...
  12. nukeman

    Linear momentum (2 blocks and spring question)

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  13. M

    Conservation of Linear Momentum

    Two friends, Al and Jo, have a combined mass of 151 kg. At an ice skating rink they stand close together on skates, at rest and facing each other, with a compressed spring between them. The spring is kept from pushing them apart, because they are holding each other. When they release their arms...
  14. L

    Calculating the Change in Mechanical Energy of a Car-Truck Collision

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  15. A

    Commutation of Angular and Linear Momentum

    If I have a relation such as [L_{j} , \vec{p}^2]=0 where j=x,y,z. Can I re-write it as [L_{j}, \vec{p} \vec{p}]=0 and then evaluate it as though it were an identity? e.g. [A,BC]=[A,B]C+[B,A]C=...
  16. P

    (Conservation of Linear Momentum) Find u1 speed

    1. A particle of mass m1 = 2 kg moving at speed u1 makes a one-dimensional completely inelastic collision with a particle of mass m2 = 3 kg, intially at rest. If 60 J of kinetic energy are lost, find u1? 2. Conservation of linear momentum: m1u1 + m2u2 = m1v1 + m2v2 3. Using the conservation...
  17. V

    Conservation of linear momentum and acceleration due to gravity.

    Homework Statement A 1000,000 Kg aircraft drops a 1000 Kg packages of supplies over the surface of the earth. what approximate force felt by 100 Kg pilot at the instant of release. (a) 1N (b) 0.1N (c) 10N (d) zero Homework Equations anything you can think of. The Attempt at a Solution In...
  18. J

    Hockey puck momentum, conservation of linear momentum

    The drawing shows a collision between two pucks on an air-hockey table. Puck A has a mass of 0.0480 kg and is moving along the x-axis with a velocity of +7.76 m/s. It makes a collision with puck B, which has a mass of 0.0960 kg and is initially at rest. The collision is not head-on. After the...
  19. J

    Momentum, conservation of linear momentum problem

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  20. J

    Linear Momentum and Its Conservation

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  21. C

    QM: Linear momentum of angular momentum eigenstate

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  22. B

    Calculating Linear Momentum of Golf Club on Impact

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  23. M

    To find the linear momentum of a function

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  24. E

    Conservation of linear momentum and energy in a collision

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  25. V

    Angular momentum + linear momentum =confusion. HElp me?

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  26. jaumzaum

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  27. K

    Conservation of linear momentum and kinetic energy

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  28. D

    Conservation of linear momentum

    Homework Statement A positive pion at rest decays to a positive muon and a neutrino. The kinetic energy of the muon has been measured to be T(muon) = 4.1 MeV. The mass of the muon is known from other experiments to be 105.7 MeV. Find the mass of the pion. Do this nonrelativistically, and then...
  29. S

    Conservation of Linear Momentum

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  30. P

    How to Approach a Conservation of Linear Momentum Problem?

    Homework Statement a 50kg man is standing at one end of a 25m long boat.if he starts running towards the other end,he attains a velocity of 2m/s on reaching the other end.if the mass of the boat is 200kg,what is the velocity of the boat?{can someone give me a hint as to how to approach such...
  31. S

    AS Physics Linear Momentum Question

    Homework Statement A lorry of mass 20,000kg is traveling at 20.0m/s towards a car of mass 900kg traveling at 30m/s towards the lorry. What is the magnitude of the total momentum? Homework Equations m1u1+m2u2=p1 Not sure about any others :\ The Attempt at a Solution The lorry has a...
  32. S

    Linear momentum conservation vs angular momentum conservation

    If linear momentum conservation is instantaneous in real time, then angular momentum conservation must be too. In other words, if you want to get something spinning, then you must physically turn something else in the opposite direction. Angular momentum conservation can't be implied, it has to...
  33. I

    Linear momentum- is my answer correct?

    Homework Statement Two blocks with masses 1 kg and 4 kg, respectively, are moving on a horizontal frictional surface. The 1-kg block has a velocity of 12 m/s, and the 4-kg block is ahead of it, moving at 4m/s. The 4 kg block has a massless spring attached to the end facing the 1-kg block. The...
  34. S

    Find an expression for linear momentum and torque

    Hi guys, I am hoping you can either point me in the right direction here or show me how to do this a bit. the problem is as follows: "a particle with weight 86.8 N is positioned at r= (8.1t)i - (7.2t-9.4t2)j. t is in seconds. Find an expression for angular momentum, L and torque, T which act...
  35. A

    Conservation of Linear Momentum

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  36. W

    Conservation of Linear Momentum problem help

    Homework Statement Having a little trouble with this problem. I've tried a few different manipulations using COM & COE and wasn't able to get it to fit the form. "A block of mass m rests on a wedge of mass M which, in turn, rest on a horizontal table as shown in the figure. All surfaces are...
  37. J

    Linear Momentum Homework: 6kg Ball Hits Wall at 4.96 m/s

    Homework Statement A 6kg ball hits a wall going 4.96 m/s at an angle of 32.2 degrees from perpendicular. It is in contact with the wall for .134 seconds. What is the average Force exerted by the wall. Homework Equations P=MV (delta)P = FT The Attempt at a Solution I...
  38. M

    Linear momentum and velocity direction

    Hi everyone When using the concept of the conservation of the linear momentum ΣPi = ΣPf to solve a problem, should I consider the the direction of the velocity? For Example, the following problem which one of the following equations is correct? m1v0+m2v0=m1v1+m2v2 or m1v0-m2v0=-m1v1+m2v2...
  39. Z

    Conservation of linear momentum when friction is present

    See the figure- The block A collides inelastically with the block B. I have seen in 2 of my books that they apply conservation of momentum in such problems along x-direction. According to me, since there is an external frictional force acting, the linear momentum is not conserved. Is...
  40. K

    Conservation of linear momentum elastic string

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  41. S

    Conservation of momentum in combination of angular and linear momentum

    angular momentum and linear momentum is conserved, but what happen when combination angular momentum and linear momentum occurs? for example a ball hits a horizontal paddle wheel on a base(which is free to move in any directions). then what happen to linear momentum of ball and paddle wheel...
  42. B

    Conservation of linear momentum collision

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  43. D

    Linear Momentum, Impulse, Center of a Mass, Velocity, Kinetic Energy

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  44. A

    Linear Velocity, linear momentum, and agular momentum

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  45. X

    Car's Kinetic Energy After Doubling Linear Momentum

    The kinetic energy of a car moving down a road is 1.00 x 10^5 J. The car suddenly doubles the magnitude of it's linear momentum vector without changing it's mass. What is the new value of the car's energy? A) 9.00 x 10^5 J B) 4.00 x 10^5 J C) 6.00 x 10^5 J D) 9.00 x 10^6 J E) none of the...
  46. A

    2 derivations using the Conservation of Linear Momentum

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  47. M

    Conservation of Linear Momentum problem

    1. Problem A 2.3 kg cart is rolling across a frictionless, horizontal track towards a 1.5 kg cart that is initially held at rest. The carts are loaded with strong magnets that cause them to attract one another. Thus, the speed of each cart increases. At a certain instant before the carts...
  48. S

    Angular Momentum and Linear Momentum

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  49. P

    How to solve Linear momentum L using vector and scalr properties?

    Homework Statement Orbital angular momentum L is given by L = mr x v Linear and angular velocity are related by the eqn. v=w x r Solve for L in terms of m, r, and w. Homework Equations I was thinking of using Lagrange's formula. A x (B x C) = B(A*C)-C(A*B) The Attempt at a...
  50. V

    Conservation of Linear Momentum (man on a moving railcar)

    Homework Statement A man (weighing 915 N) stands on a long railroad flatcar (weighing 2005 N) as it rolls at 17.0 m/s in the positive direction of an x axis, with negligible friction. Then the man runs along the flatcar in the negative x direction at 46.00 m/s relative to the flatcar. What is...
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