Suppose we start out in a configuration with 6 total packets of energy, with 4 in...

Suppose there are 4 packets to be sent out at the sender. During the transmission, the...

Suppose there are 4 packets to be sent out at the sender. During the transmission, the second packet is lost. All other packets and ACKs are received correctly. We assume the packet transmission takes 2 minutes, the RTT is 20 minutes, the timer is 35 minutes. Draw a diagram to illustrate the packet and ACK transmission sequence and the specific time for each packet receiving and ACK receiving using (a) stop-and-wait protocol, (b) Go-back-N protocol with N=3. Note you need...

Here we calculate the partition function, molar translational internal energy, and molar translational entropy of a...

Here we calculate the partition function, molar translational internal energy, and molar translational entropy of a monatomic gas. The single particle translational partition function is qtrans=VΛ3) where Λ is the thermal wavelength and teh entropy is given by the Sackur-Tetrode equation S=N*kB*ln((qtrans*e^5/2)/N). A. Calculate the single particle translational partition function q for neon gas at T=298K and V=22.4L. Assume neon behaves ideally. B. Based on your answer in Part A, calculate the molar translational internal energy of neon at at...

A chain of metal links with total mass m = 6 kg is coiled up in...

A chain of metal links with total mass m = 6 kg is coiled up in a tight ball on a low-friction table. You pull on a link at one end of the chain with a constant force F = 69 N. Eventually the chain straightens out to its full length L = 1.1 m, and you keep pulling until you have pulled your end of the chain a total distance d = 3.9 m (diagram is not to scale)....

In class we discussed a reversible, isothermal compression of an ideal gas. The initial point (1)...

In class we discussed a reversible, isothermal compression of an ideal gas. The initial point (1) is an ideal gas in equilibrium at pressure 1 (P1), volume 1 (V1) and temperature (T), and the final point (2) is an ideal gas in equilibrium at pressure 2 (P2), volume 2 (V2) and temperature (T), where V2 d) For each differential step, the change in entropy is given by dS=qrev/T =!!!"#! . Since T is constant , this express ion can be...

**Please do not write in handwriting** 1- Compare the values of kinetic, potential and total energy...

**Please do not write in handwriting** 1- Compare the values of kinetic, potential and total energy of an oscillating mass-spring system in the following cases: a) When the spring is the most compressed and the most extended. b) When the spring is nearly relaxed. 2- Suppose that a simple pendulum is calibrated to 2 cycles per second at sea level and is then brought up to the top of a tall mountain. What would need to be done to re-calibrate...

Finding the Spring Constant We can describe an oscillating mass in terms of its position, velocity,...

Finding the Spring Constant We can describe an oscillating mass in terms of its position, velocity, and acceleration as a function of time. We can also describe the system from an energy perspective. In this experiment, you will measure the position and velocity as a function of time for an oscillating mass and spring system, and from those data, plot the kinetic and potential energies of the system. Energy is present in three forms for the mass and spring system....

PART A Two light waves of the same frequency start out in phase (with amplitudes going...

PART A Two light waves of the same frequency start out in phase (with amplitudes going up at the same moment), and they interfere having traveled different distances.  What happens if the path difference in the two waves is 1200 nm and the wavelength of the light is 400 nm (blue light)? The waves add in step and the  time-averaged power at that place is 4x that of one wave alone. The waves add in step and the  time-averaged power at that is...

Question 1 In this question we undertake the Hydrogen Atom Model, developed in 1913 by Niels...

Question 1 In this question we undertake the Hydrogen Atom Model, developed in 1913 by Niels Bohr. a) Write the electric force reigning between the proton and the electron, in the hydrogen atom, in CGS system. Then equate this force, with the force expressed in terms of mass and acceleration, to come up with Bohr's equation of motion. Suppose that the electron orbit, around the proton, is circular. Use the following symbols, throughout. e: proton's or electron's charge intensity(4.8x 10-8...

B. Maximization, using total analysis. Suppose you want to get the highest possible combined score. One...

B. Maximization, using total analysis. Suppose you want to get the highest possible combined score. One possible way to achieve this goal is to calculate all the total scores of various alternative study strategies by filling in the blanks below. Do this. Hours Studied Scores Econ Math Econ Math Combined 8 1 100 24 124 7 2 97 44 141 __6_ 3 ____ ____ _____ __5_ 4 ____ ____ _____ _4__ 5 ____ ____ _____ __3_ 6 ____ ____ _____...

Please solve the following problems. You must show all work. 1. A 10.0 cm radius piston...

Please solve the following problems. You must show all work. 1. A 10.0 cm radius piston compresses a gas isothermally from a height of 15.0 cm to 2.50 cm at a constant pressure of 2.0 atm. a) How much heat was added to the gas? b) Now if 7000 J of heat is added to the system and the piston is only moves 5.0 cm up, what is the change in the internal energy of the system is the pressure...