4. Find the transfer eguation This was from roblem to n homework set s 2i ev...
HOMEWORK No. 4 1) If P, Q and S are vector forces and If P --2i+ 3j-4k and P Q=-i-j+kand S -3j MFI a) Find P.Q P -2 3-4 Q= 2X-D 311)+eD P.Q=-5 1 b) Find PX Q J K -2 3 -4 -1-1 1 fxQ=(5-)i +(-2-0j+(2-DK PxQ=-i-uj +5K c) Find Angle 31COS0 IG-N122 EN3 d) Unit Vector Q e) Find (P x Q).S (-i-aita = 13 f) Provide a graphical interpretation of the quantity (Px Q) . S g)...
Problem-4: Find a) the transfer function using “Direct Method” if the input is e(t) and the output is eo. For parts b and c, take C = R=1. b) If e(t) = 15, use FVT (if applicable), to determine the steady state value of the zero-state response [(eo)zs]ss. c) If ei(t) = 3cos(2t + 7/3), find steady state response, (eo)ss. * Tivhinois eo Сео
Find V1 and V2 4 Ω . 2Α 4Ω s * V2 Vi 1Ω 2i, - 2 Ω + 10 V
E(s) In the figure below, find the transfer function G(s) = N(s) N(s) Y(s) 10 E(s) R(s) s+2 s(s + 1) 0.5s E(s) In the figure below, find the transfer function G(s) = N(s) N(s) Y(s) 10 E(s) R(s) s+2 s(s + 1) 0.5s
Eo(s) Problem 1. Find the transfer function G(s) R ww R2 ww ਹੈ.
E-0.38 eV; E-0 eV) A. The electron will be raised from the ground state to the fifth "excited" state, i.e. ton-d. B. The electron will be raised from the ground state to an excited state with n larger than 6, but will still be bound in the atom. The electron in the atom will drop down to the ground state. C. The electron will be removed from the atom. A gamma ray photon Eo strikes a hydrogen atom. Which of...
An energy of 30.6 eV is needed to remove an electron from the n = 2 state of a lithium atom. If a single photon accomplishes this task, what wavelength is needed? (h = 6.63 × 10−34 J⋅s, c = 3.00 × 108 m/s, 1 eV = 1.6 × 10−19 J, and 1 nm = 10−9 m)
BC:9.4 A LTI discrete time system has an impulse response h[n] = (-0.8)"u[n] + (0.65)"u[n-1] Find the transfer function, #(eo), in the normalized frequency domain. Use Matlab to plot the magni- tude and phase (in degrees) of H(eo) in the range of-? < ? < ?. Attach your Matlab source code with the plots. 1212 AM ^???4/4/2013
θ2(s)/T(s) for the following rotational mechanical system Problem 4: Find the transfer function G(s) TO) N1 = 4 Di 1 N-m-s/rad N2 121 kg-m2 N3-4 D2-2 N-m-s/rad K 64 N-m/rad- N4 16 D3 32 N-m-s/rad -16 kg-m2 000
5. Two forces Fi 2i+3j-4 k N and F2+2j +6 k N are acting on a particle simultaneously. Find out the (10 pts.) resultant force. Calculate the work done if the displacement of the particle be d-3 i + 2 j-k m.