Lioness Music: POWERMAN 5000- Bombshell Lioness Mood: Cheerful Lioness Health: Soso / Lioness Nausea Magnitude:Level 5/6 Lioness Work Factor: Out of 100% , 98.87336% Soviet Lioness Quote: Wave Function for N Particles shown in (Nomenclature) r = (r1, r2... rN) sz = (sz 1, sz 2... sz N)
Boolean Algebra Law: Laws of Boolean Algebra Commutative Law Commutative Law of Addition: A + B = B + A Commutative Law of Multiplication: AB = BA Associative Law Associative Law of Addition: A + (B + C) = (A + B) + C Associative Law of Multiplication: A(BC) = (AB)C Distributive Law A(B + C) = AB + AC
A Note from my Linear Momentum Studies:
Linear momentum is a vector quantity defined as the product of an objects mass, m, and its velocity, v. Linear momentum is denoted by the letter p and is called momentum for short:
Note that a body's momentum is always in the same direction as its velocity vector. The units of momentum are kg m/s. Fortunately, the way that we use the word momentum in everyday life is consistent with the definition of momentum in physics. For example, we say that a BMW driving 20 miles per hour has less momentum than the same car speeding on the highway at 80 miles per hour. Additionally, we know that if a large truck and a BMW travel at the same speed on a highway, the truck has a greater momentum than the BMW, because the truck has greater mass. Our everyday usage reflects the definition given above, that momentum is proportional to mass and velocity. Linear Momentum and Newton's Second Law In Chapter 3, we introduced Newton's Second Law as F = ma. However, since acceleration can be expressed as , we could equally well express Newton's Second Law as F = . Substituting p for mv, we find an expression of Newton's Second Law in terms of momentum:
In fact, this is the form in which Newton first expressed his Second Law. It is more flexible than F = ma because it can be used to analyze systems where not just the velocity, but also the mass of a body changes, as in the case of a rocket burning fuel.
I'm now studying Purely All Advanced-> Light/Particle Physics, Nuclear/Astrophysics, Laser Physics, Linear Motion Physics, Advanced Linear Algebra/Trigonometry and Advanced Boolean Algebra among Other Math/Sciences, Advanced Composition, ect! I'm getting All GPA 4.0's in it, in regular/and tests too, I'll be Taking SAT's and CAT's this year, since new years start I've been really busy too! I'm Also Assigned to Read the Entire History of Nikola Tesla, and Study his Designs and Math and Draw them too in Schematic Form/Mathematical Form, I'm taking 13+ Courses, though I'm in 9th Grade now, I'm taking University/College Level Home School Work!
Otherwise I'll be Doing my Art Trades/Requests in between, resting from my usual illnesses! Well I must go! Have Heavy Math/Sciences To Study, along with Art Trades Requests to do! Below a small taste of my Study work! You should see the math I do with it and on, I typed this from memory!
Soviet Lioness Quote: Linear motion Physics
Linear motion, also called uniform motion or rectilinear motion, motion in one spatial dimension.
According to Newton's first law (also known as the principle of inertia), a body with no net force acting on it will either remain at rest or continue to move with uniform speed in a straight line, according to its initial condition of motion. In fact, in classical Newtonian mechanics, there is no important distinction between rest and uniform motion in a straight line; they may be regarded as the same state of motion seen by different observers, one moving at the same velocity as the particle, the other moving at constant velocity with respect to the particle.
A body in motion may be said to have momentum equal to the product of its mass and its velocity. It also has a kind of energy that is entirely due to its motion, called kinetic energy. The kinetic energy of a body of mass m in motion with velocity v is given by K = (1/2)mv2. |