1.) Simplify the following expression to a minimum number of literals.
This problem must be solved through Algebraic Manipulation.
All work must be shown on the submitted work.
Things to remember.
If you can't see anything to work with from the beginning, expand.
Formula Sheet has been provided.
a.) Simplify (you MUST submit your work to get credit for this
problem)
F(a, b, c) = bc + a’b + ab’ + ac’
2.) Express the given function in terms of...
Write the expression as an equivalent expression in the form x^n.
Simplify your answer as much as possible, and enter your answer as
a fraction.
(X^6)^4/(X^6)(X^4)
Derive an expression for the power going into the braking system
when a car is decelerated from a speed u to a standstill with
constant deceleration a (Remember using v = u-at = 0, where a is
the magnitude of the deceleration) on a level road. Include the
force required to overcome aerodynamic drag (1 ??2???) and rolling
2 friction (μmg). (2) Hence, derive an expression to allow the
energy dissipated during the deceleration period to be calculated.
(3) The...
1.) Simplify the following Boolean Expression to a
minimum number of literals.
(a'b' + c)(a + b + c')
a.)ab + a'b'c' + ac
b.)ac + abc + bc
c.)ac + a'b'c' + bc
d.)a'c + abc + b'c
e.)None of the above
2.) Reduce to two literals.
wxy'z + w'xz + wxyz
a.) xz
b.) x'z
c.) xz'
d.) yz
e.) None of the above
Derive an expression for the instantaneous voltage across the
capacitor. Express your answer in terms of the variables C, R, I0,
and t.
My previous answers that were incorrect: 1) VC=I0*Cos(omega*t)*R
(Response was that the answer doesn't depend on (omega*t)
2)Vc=I0*Cos((1/RC)*t)*R (Response was Incorrect; Try Again; One
attempt remaining You have found the voltage across the resistor.
Note that the current and voltage across the capacitor are out of
phase.)
Previous question info:
Part A) A 300 Ω resistor is...
1.Derive Clausius-Mossotti relation for molecular
polarizability and an expression for susceptibility.
2.Derive London equations and find an expression for
penetration depth.
3. Discuss inelastic scattering of neutrons by phonons
and derive an expression for kinetic energy.
Derive an expression for the most probable translational energy
for an ideal gas. Compare
your results to the mean translational energy for the same
gas.