law of conservation of energy, matter, and momentum. how do you explain these laws?
law of conservation of energy, matter, and momentum. how do you explain these laws?
State the laws of conservation of linear momentum and mechanical energy.
Show that the laws of momentum and energy conservation forbid the complete absorption of a photon by a free electron. (Note: This is NOT the photoelectric effect. In the photoelectric effect, the electron is not free; the metal participates in momentum and energy conservation.
1) The concept of Conservation of Energy tells us what? 2)The Law of Conservation of Momentum tells us? 3)Centripetal Force always acts how? PLEASE TYPE YOUR ANSWERS
Using momentum and energy conservation laws prove that in a Newton's cradle a single ball always transfers all of its momentum to the next one.
How does this experiment (Heats of Reaction) illustrate the Law of Conservation of Energy? Explain using your experimental results. (I got experimental data of 57,671.2J; adding together experiment 1 and 2, while experiment three got a total of 64,486.3J. Yes, I know, a lot of experimental error) but I'm confused on what this has to do with Law of Conservation of Energy?
For which quantity there is no conservation law? a.force b.angular momentum c.mechanical energy d.momentum e.none of the other choices
16. (15 pts.) Dimensionalization and Scaling Laws -- Write down the dimensionless conservation equations for mass, momentum, and energy. List and explain all primary dimensionless numbers in the equations. 17. (15 pts.) Scaling/Modeling Law - A prototype and its model
State the Law of Conservation of Momentum? Give an example of a situation where momentum is conserved.
s the conservation of linear momentum consistent with Newton's first láw of. motion. Explain. Is the conservation of linear momentum-consistent with Newton's second law of motión. Explain. In a.system of particles for which the total momentum is conserved, is the linear momentum of the individual particles constant? Explain
Bernoulli equation. The Bernoulli equation is a special case of conservation of linear momentum law of conservation of energy) for steady frictionless flow. This equation can be arrived at in three different ways. The usual form of the Bernoulli equation is: 1. pv2 + P + ?9z-constant a) For frictionless flow at steady state, Euler's equation of conservation of linear momentum reduces to: Starting from this equation, derive the Bernoulli equation. Assume irrotational flow. Derive the Bernoulli equation using the...