Engineering
Engineering, 19.05.2020 16:19, 727

Q.7) The beam shown in figure is supported
by a hinge at point o (which is parallel to x-
axis) and a cable. Determine the support
reactions at O and the tension supported by
the cable. [6 marks]
0.8 m
F=(51-12) KN
(ATA = 75 kN, My = 5 kN. m. Mo, = -22 kN. m. O, = 50 kN, 0,= -15 kN,
0, = 54 kN
(B) TAD
= 32.1 kN. M. = 0 kv. m. Mor = 41.4 kN. m, 0, = 15 kN. o, = 23 kN.
0 = -50 kn
(C)TAD = 54 kN, My = -14.4 kN. m. Mo, = 0 kNm, 0, = 23.1 kN. O, = 19 kN.
0,= –22 km
(DTAD = 57 kN. M.y = 4.5 kN. m. Mo, = -44.1 kN. m. 0 = -9k. oy
= 90 KN 0,= 32.1 KN
(E)Other answer Tan = ? N. My =? kN. m.M=? KM,
0,=? kN
0,=? KNO, =? KN.

please help me with this question


Q.7) The beam shown in figure is supportedby a hinge at point o (which is parallel to x-axis) and a

answer
Answers: 1

Other questions on the subject: Engineering

image
Engineering, 04.07.2019 18:10, alyssabailey7545
Give heat transfer applications for the following, (i) gas turbines (propulsion) ) gas turbines (power generation). (iii) steam turbines. (iv) combined heat and power (chp). (v) automotive engines
Answers: 1
image
Engineering, 04.07.2019 18:10, lillygrl100
For the closed feedwater heater below, feedwater enters state 3 at a pressure of 2000 psia and temperature of 420 °f at a rate of ix10 ibhr. the feedwat extracted steam enters state 1 at a pressure of 1000 psia and enthalpy of 1500 btu/lbm. the extracted er leaves at an enthalpy of 528.7 btu/lbm steam leaves as a saturated liquid. (16) a) determine the mass flow rate of the extraction steam used to heat the feedwater (10) b) determine the terminal temperature difference of the closed feedwater heater
Answers: 3
image
Engineering, 04.07.2019 18:10, siri5645
At 12 noon, the count in a bacteria culture was 400; at 4: 00 pm the count was 1200 let p(t) denote the bacteria cou population growth law. find: (a) an expression for the bacteria count at any time t (b) the bacteria count at 10 am. (c) the time required for the bacteria count to reach 1800.
Answers: 1
image
Engineering, 04.07.2019 18:10, soreese02
An ideal otto cycle with air as the working fluid has a compression ratio of 8. the minimum and maximum temperatures in the cycle are 300 k and 1340 k. use constant specific heats at room temperature to determine (a) the amount of heat transferred to the air during the heat- addition kj/kg, (b) the thermal efficiency, and (c) the thermal efficiency of a carnot cycle ope limits. process, in rating between the same temperature
Answers: 2
Do you know the correct answer?
Q.7) The beam shown in figure is supported
by a hinge at point o (which is parallel to x-
...

Questions in other subjects:

Konu
Mathematics, 05.12.2019 07:31