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e. 32 overall length Li 2 Figure 105.1401 9. The wall, shown above in Figure 105.1401,...
Problem 5 You are to examine the retaining wall shown on Figure 2. Assume that the wall height (H...
Problem 5 You are to examine the retaining wall shown on Figure 2. Assume that the wall height (H) is equal to 12 feet, and the base width (B) is 7 feet. The wall will be approximately 200 feet long (into the page). The backfill material behind the wall is a poorly-graded sand with silt (ŚP-SM) that has an average total unit weight of 1 19 pounds per cubic foot (pcf) and an average water content of 12%. As indicated,...
Extra Credit: -9 6. As shown in the figure above, a nonconducting rod of length L...
Extra Credit: -9 6. As shown in the figure above, a nonconducting rod of length L - 9.0 cm has a charge q-12 nC uniformly distributed along its length. (a) What is the linear charge density of the rod? What are the (b) magnitude and (c) direction (relative to the positive direction of the x axis) of the electric field produced at point P, at distance a=12.0 cm from the rod? What is the electric field magnitude produced at distance...
2) B 20 с E A C 40 D As shown in the drawing above, a...
2) B 20 с E A C 40 D As shown in the drawing above, a race follows a zig-zag path from A to B, then from B to D and finally from D to E. BDLAE at C. AE = 200 meters, BC = 20 meters, and CD = 40 meters. C is between A and E. Let the distance AC = 2. (a) Write an expression for the total length of the racecourse, L, as a function of...
By stiffness method : determine the displacements at Joint B and at Joint C in the three-span beam shown in the figure below. The flexural rigidity of the beam is EI and is constant along the length o...
By stiffness method : determine the displacements at Joint B and
at Joint C in the three-span beam shown in the figure below. The
flexural rigidity of the beam is EI and is constant along the
length of the beam. Note that L1 = L2 = L3 = L P1 = P2 = P3 = P
M = PL
wL = P Also, find the reactions at Joint A.
い12 8
い12 8
AWTW 32 22 352 225 312 (1 point) E B For the circuit shown in the...
AWTW 32 22 352 225 312 (1 point) E B For the circuit shown in the figure above, Find the current in the three branches. What is the potential VA - VB ? Assume V1 = 10 V, V2 = 6V and V3 = 14 V A 11 = 12 = 13 = VAB = A Note that the problem forces the initial directions of the currents. You should therefore input the values of the currents you find, including the...
Vcc 16 15 14 2 LT3 4 Bl 12 6 10 9 GND 8 Figure 1: Overall 7446 Decoder circuit VCC 5.0V A B CDE...
Vcc 16 15 14 2 LT3 4 Bl 12 6 10 9 GND 8 Figure 1: Overall 7446 Decoder circuit VCC 5.0V A B CDEFG 74LS47 vec OA OB ос OD LE -RBI OG BI/RBO GND 470 Ohm 1 kOhm 1 kOhm 1 kOhm 1 kOhm Figure 2: Overall Schematic of the Decoder circuit for Procedure 4 VCC 5.0V 1 kohm kOhm 1 kohm 1 Kohm 74LS47 AB COEFG OD oc OD 0E OE OG LT I /RSO 470 Ohm...
(1) (2) A. The square bar shown (Figure 1) is 2 in. thick and 12 ft...
(1) (2)
A. The square bar shown (Figure 1) is 2 in. thick and 12 ft long
and is fixed supported at both ends. A load directed leftward is
applied at point C, as shown, L2 = 10.6 ft from the left end. The
modulus of elasticity is E = 1.5×104 ksi. If point C
moves δ = 3×10−3 in. to the left, what is the applied
force?
B. Consider a new structure, where the thickness of the bar is...
b and c (9%) Problem 2: Two pendula are shown in the figure. Each consists of...
b and c
(9%) Problem 2: Two pendula are shown in the figure. Each consists of a solid ball with uniform density and has a mass M. They are each suspended from the ceiling with massless rod as shown in the figure. The ball on the left pendulum is very small. The ball of the right pendulum has radius 1/2 L. Randomired Variables L=/./m Otheexperta.com 33% Part() How does the period of the left pendulum change if the mass is...
Problem-2 A very thin, uniformly-charged rod with total charge Q and length 2L lies along the...
Problem-2 A very thin, uniformly-charged rod with total charge Q and length 2L lies along the vertical 2-axis. Sitting still (zero velocity and zero acceleration) at a distance H above the top end of the rod is a proton. Gravity is acting on the proton in the downward (-2) direction. What is the the total charge Q on the rod? + profon K & de d = k l . dx. - EL - K Let =) , U, -...
A voltaic cell similar to that shown in the figure above is constructed. The electronic device shown at the top of the...
A voltaic cell similar to that shown in the figure above is constructed. The electronic device shown at the top of the figure is a volt meter. One electrode compartment consists of a cadmium strip placed in a 1.0 M Ca(NO3), solution, and the other has a copper strip placed in a 1.0 M CUSO4 solution. The overall cell reaction is: Ca(s) + Cu2+ (aq) = Cd2+(aq) + Cu(s) (a) Fill in the information necessary to complete the half reactions...
Problem 5 You are to examine the retaining wall shown on Figure 2. Assume that the wall height (H) is equal to 12 feet, and the base width (B) is 7 feet. The wall will be approximately 200 feet long (into the page). The backfill material behind the wall is a poorly-graded sand with silt (ŚP-SM) that has an average total unit weight of 1 19 pounds per cubic foot (pcf) and an average water content of 12%. As indicated,...
Extra Credit: -9 6. As shown in the figure above, a nonconducting rod of length L - 9.0 cm has a charge q-12 nC uniformly distributed along its length. (a) What is the linear charge density of the rod? What are the (b) magnitude and (c) direction (relative to the positive direction of the x axis) of the electric field produced at point P, at distance a=12.0 cm from the rod? What is the electric field magnitude produced at distance...
2) B 20 с E A C 40 D As shown in the drawing above, a race follows a zig-zag path from A to B, then from B to D and finally from D to E. BDLAE at C. AE = 200 meters, BC = 20 meters, and CD = 40 meters. C is between A and E. Let the distance AC = 2. (a) Write an expression for the total length of the racecourse, L, as a function of...
By stiffness method : determine the displacements at Joint B and
at Joint C in the three-span beam shown in the figure below. The
flexural rigidity of the beam is EI and is constant along the
length of the beam. Note that L1 = L2 = L3 = L P1 = P2 = P3 = P
M = PL
wL = P Also, find the reactions at Joint A.
い12 8
い12 8
AWTW 32 22 352 225 312 (1 point) E B For the circuit shown in the figure above, Find the current in the three branches. What is the potential VA - VB ? Assume V1 = 10 V, V2 = 6V and V3 = 14 V A 11 = 12 = 13 = VAB = A Note that the problem forces the initial directions of the currents. You should therefore input the values of the currents you find, including the...
Vcc 16 15 14 2 LT3 4 Bl 12 6 10 9 GND 8 Figure 1: Overall 7446 Decoder circuit VCC 5.0V A B CDEFG 74LS47 vec OA OB ос OD LE -RBI OG BI/RBO GND 470 Ohm 1 kOhm 1 kOhm 1 kOhm 1 kOhm Figure 2: Overall Schematic of the Decoder circuit for Procedure 4 VCC 5.0V 1 kohm kOhm 1 kohm 1 Kohm 74LS47 AB COEFG OD oc OD 0E OE OG LT I /RSO 470 Ohm...
(1) (2)
A. The square bar shown (Figure 1) is 2 in. thick and 12 ft long
and is fixed supported at both ends. A load directed leftward is
applied at point C, as shown, L2 = 10.6 ft from the left end. The
modulus of elasticity is E = 1.5×104 ksi. If point C
moves δ = 3×10−3 in. to the left, what is the applied
force?
B. Consider a new structure, where the thickness of the bar is...
b and c
(9%) Problem 2: Two pendula are shown in the figure. Each consists of a solid ball with uniform density and has a mass M. They are each suspended from the ceiling with massless rod as shown in the figure. The ball on the left pendulum is very small. The ball of the right pendulum has radius 1/2 L. Randomired Variables L=/./m Otheexperta.com 33% Part() How does the period of the left pendulum change if the mass is...
Problem-2 A very thin, uniformly-charged rod with total charge Q and length 2L lies along the vertical 2-axis. Sitting still (zero velocity and zero acceleration) at a distance H above the top end of the rod is a proton. Gravity is acting on the proton in the downward (-2) direction. What is the the total charge Q on the rod? + profon K & de d = k l . dx. - EL - K Let =) , U, -...
A voltaic cell similar to that shown in the figure above is constructed. The electronic device shown at the top of the figure is a volt meter. One electrode compartment consists of a cadmium strip placed in a 1.0 M Ca(NO3), solution, and the other has a copper strip placed in a 1.0 M CUSO4 solution. The overall cell reaction is: Ca(s) + Cu2+ (aq) = Cd2+(aq) + Cu(s) (a) Fill in the information necessary to complete the half reactions...
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