Re: \"Tunnels\" on Top of Car! (Cadillac)
<BLOCKQUOTE><font size="1" face="Verdana, Arial">quote:</font><HR>Originally posted by Tom and Vipers:
Craig,
Maybe you can explain this.
I have heard physicists say that when you get a finer understanding of energy, you think of kinetic energy, (mv**2)/2 as the "the time rate of change of linear momentum"
d(mv)/dt = (mv**2)/2
What perplexes me about this is that the concepts of potential and kinetic energy seem "clear" to me, however, I have no concept of what linear momentum actually is.
Springs, harmonic oscillators, and escape velocities really lend themselves to these energy concepts, however, conservation of linear momentum for flow thru a control volume, collisions, and such, while mathematically simple, escapes me.
I'll throw Tensors in with that too.
Tom
<HR></BLOCKQUOTE>
1) Never heard that time rate of change explanation before and it doesn't make much sense to me based on what I know about momentum and KE, and wouldn't the expression d(mv)/dt = m dv/dt = ma = F ?
2) Below is an exercise to mentally capture the 1/2mv^2 vs. mv difference. (I c and p'd from the internet.)
Suppose that you were captured by an evil physicist who gave you the following choice:
You must either:
Stand in front of a 1000 kg. truck moving at 1 m/s, or
Stand in front of a 1 kg. meatball moving at 1000 m/s.
What's your choice?
Hopefully, you picked the truck! It's a big truck, but it is moving rather slowly (about walking speed), so assuming you don't fall down when it hits you (That would be bad...) the truck is just going to bump into you and move you out of the way.
On the other hand, you probably suspect intuitively that the meatball is a very dangerous object. It isn't that massive, but it is moving very fast (about 10 football fields per second) - and when it hit you it would do considerable damage to you, and keep going!
Consider the momentum and kinetic energy of the truck and the meatball:
Truck:
Truck's momentum = mv = (1000 kg)(1 m/s) = 1000 kg m/s
Truck's kinetic energy = 0.5 mv2 = (0.5)(1000 kg)(1 m/s)2 = 500 Joules
Meatball:
Meatball's momentum = mv = (1 kg)(1000 m/s) = 1000 kg m/s
Meatball's kinetic energy = 0.5 mv2 = (0.5)(1 kg)(1000 m/s)2 = 500 000 Joules
We know intuitively that the meatball is more dangerous than the truck, yet the momenta of the truck and the meatball are the same. On the other hand, the meatball has 1 000 times the kinetic energy of the truck!
Clearly, momentum and kinetic energy tell different things about an object!
3) KE is a scalar and can be added in the manner of regular numbers. Momentum is a vector and is additive in the same manner as forces are.
4) The fact that both KE and momentum are conserved can enable calculations of system properties from physical measurements. (Remember the ballistic pendulum from physics? You use the conservative relationship of KE and momentum to determine the velocity of the bullet shot into wooden block which swings to a measurable height.)
5) The two physical descriptors, momentum and KE go hand in hand when assessing the total physical characteristics of a system.
6) Your basic question: What is linear momentum. It's a vector with a magnitude of mv. That's all. It's significant because it is a conserved property and is additive/subtractive using vector mathematics.
I'm not sure any of this clears anything up, but I tried.
