The statement of the assignment leaves latitude for interpretation.

I choose the following:

Plot momentum, kinetic energy, and acceleration in the lab frame of a massive particle subjected to a force that is constant in the particle frame.
On matters of acceleration there are ...

1. State the conservation of momentum and kinetic energy in collisions in classical mechanicsandrelativisticmechanics
2. derive the relativistic kinetic energy.
3. Derive the total relativisticforce as a function of momentum.
please show the solutions in detail, stepwise.

Consider a finite-support signal
x(t) = t 0<=t<=1
and zero elsewhere.
- Using Matlab, plot x(t+1)
- Using Matlab, plot x(-t+1)
- Add the above two signals together and plot the new signal y(t).

1. A ball (B) of mass m moves with velocity v relative to an observer (O). The momentum of B relative to O is p=mv according to Newtonianmechanicsand p=gamma x mv according to Special Relativity. What do the above two theories predict for B's momentum if its speed equals c, the speed of light?
2. Alice travels from Earth to

How would I plot a graph for the following RLC circuit which shows the magnitude of Z (the input impedance) as a function of frequency from 10Hz to 10KHz?
See attached file for full problem description.

9)
The surfaces between a 6 kg block, the 24 kg wedge and between the 24 kg wedge and the horizontal plane are smooth (without fric-tion).
The acceleration of gravity is 9.8 m/s2 .
A block is released on the inclined plane (top side of the wedge).

Include answers for Problems and include MATLAB coding along with any output plots that support solutions
1. The input-output equation characterizing an amplifier that saturates once the input reaches certain values is:
(see attached file for equations)
Where x(t) is the input and y(t) the output.
a. Plot the relati

I need a detailed script in order to show this works in MATLAB.
This problem. All I need is the circled #3 problem, but only required to do the top a) and b) graphs.

At the instant shown, theta = 45 degrees, and the magnitude of the velocity of point G is v(G) = 16m/s and the angular speed of the disk is 7 rad/s. Point G is the mass center of the disk. The Radius of the disk if R = 0.5m. Determine the magnitude of the velocity of point C at the instant shown. The unit vector i, j, and are t

Two relativistic electrons are ejected simultaneously from a piece of potassium in opposite directions each is traveling with a speed of 0.5c with respect to the metal.
a) what is the velocity of electron 1 with respect to electron 2?
b) what is the velocity of electron 2 with respect to electron 1?