In the figure we have: 3 fluids and 3 pistons. Ones = 5 pistons have the following dimensions: Diameter = 20 ??, Thickness = 10 ??
a) Determine: ?1, ?2 and ?3 (at ???).
b) Determine: ?4 (in ???).
DR: Relative Density
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In the figure we have: 3 fluids and 3 pistons. Ones = 5 pistons
have the...
In the figure we have: 3 fluids and 3 pistons. Relative Density of the pistons is...
In the figure we have: 3 fluids and 3 pistons.
Relative Density of the pistons is 5 and have the following
dimensions: Diameter = 20 ??, Thickness = 10 ??
a) Determine: ?1, ?2 and ?3 (at ???).
b) Determine: ?4 (in ???).
P4 Q GAS P, GAS 0.2 m DR = 1 P20- GAS 0.2 m DR = 2 P3 GAS ई 0.6 m 0.4 m DR = 3
Consider the grounded dielectric sheet in figure below. The thickness d 2 mm and its relative per...
Consider the grounded dielectric sheet in figure below. The thickness d 2 mm and its relative permittivity is 3 (1) Numerically calculate the propagation constant of the dominant TM mode using either the Newton-Raphson method or the fzero function of Matlab for wavelength range from d to 100d. (2) Calculate the Ez field at 40 GHz for x ranging from 0 to 5d. Plot the normalized propagation constant and Ez, sample plots are given below Dielectric Ground plane d-1mm, f...
In the figure, the AB gate 3,464 long and 2m wide (perpendicular to the paper) separates...
In the figure, the AB gate 3,464 long and 2m wide (perpendicular
to the paper) separates 2 compartments. The piston weighs 20 KN and
its area is 1 m2, determine F (in KN) so that the system
is in equilibrium.
DR= Relative density
F 20 kPa I 15 GAS T 2.5 DR = 0.6 2.4 DR = 1.5 E 1.5 DR = 0.8 DR = 2 3 DR = 1 1.5 t 1.1 DR = 1.2
Fluids: 3. The fire truck shown in the figure below is parked on an ice covered...
Fluids:
3. The fire truck shown in the figure below is parked on an ice covered road. It produces a water jet with a velocity, V 35 which is directed towards the fire as shown. The diameter of the jet is 80 mm and it is positioned on the longitudinal plane of symmetry of the truck. The weight of the truck is 100 kN. The water density, p 996 kg/m3, and the viscosity, 0.00093 kg/ms. Do the following: a) Draw...
3.93 w Air contained in a piston-cylinder assembly undergoes two processes in series, as shown in...
3.93 w Air contained in a piston-cylinder assembly undergoes two processes in series, as shown in Fig. P3:93. Assuming ideal gas behavior for the air, determine the work and heat transfer for the overall process, each in kJ/kg. Isothermal process Ti = 300 K (bar) 1 °C 0.1 0.2 0.3 0.4 V (m) 0.5 0.6 FIGURE P3.93
3. We obtain autocorrelation function of residuals of the five autoregressive models: AR(1), AR(2), AR(3), AR(4)...
3. We obtain autocorrelation function of residuals of the five autoregressive models: AR(1), AR(2), AR(3), AR(4) and AR(5). Choose a model that performs reasonably well, according to the plots of autocorrelation function. Explain the reason (no more than 20 words.) Autocorrelation function for AR(1) model Series ar1$residuals 1.0 RO 0.6 ACF 0.4 -0.2 0.0 0.2 0 5 10 15 Lag Autocorrelation function for AR(2) model Serles ar2$residuals 1.0 RO 0.6 ACF 0.4 -0.2 0.0 0.2 0 5 10 15 Lag...
part 1 of 3 Consider a solid insulating sphere of radius b with nonuniform charge density...
part 1 of 3 Consider a solid insulating sphere of radius b with nonuniform charge density p = ar, where a is a constant. Find the charge contained within the radius r<b as in the figure. The volume element dV for a spherical shell of radius r and thickness dr is equal to 47 r2 dr. part 2 of 3 If a = 5 x 10-6 C/m' and b = 1 m, find E at r = 0.6 m. The...
So I have the rate but I can't remember how I solved to get the rate can someone help me figure t...
So I have the rate but I can't remember how I solved to get the
rate can someone help me figure this out?
not sure if this other graph will help but I attached it as
well.
Acetone] [H] Rate 2.4 x 10 5.7 x 106 Trial # 1 0.54M 0.2M 2 2 1.08 M 3 1.62 M 0.2M 8.6x10 4 0.54 M 5 0.54M 0.2 M 0.4 M 5.3 x 106 8.1x106 0.6 M Trial # t(s) tHs) 4:18...
Question 2: (15 marks) Bracket ABC has loads applied as identified in Figure 2. A steel control r...
please label with detailed steps ! thank you
Question 2: (15 marks) Bracket ABC has loads applied as identified in Figure 2. A steel control rod A with ultimate normal stress of 600 MPa is attached to point B. At point C the steel pivot pin has an ultimate shearing stress of 350 MPa. Assuming a factor of safety of 3.3 determine: (i) The minimum acceptable diameter of the control rod AB (ii) The minimum acceptable diameter of the pivot...
A counter-flow heat exchanger is stated to have an overall heat transfer coefficient of 284 W/m2.K...
A counter-flow heat exchanger is stated to have an overall heat transfer coefficient of 284 W/m2.K when operating at design and clean conditions. Hot fluid enters the tube side at 101°C and exits at 71°C, while cold fluid enters the shell side at 27°C and exits at 42°C. After a period of use, built-up scale in the heat exchanger gives a fouling factor of 0.0004 m2 K/W. The surface area is 93 m². Assume both hot and cold fluids have...
In the figure we have: 3 fluids and 3 pistons.
Relative Density of the pistons is 5 and have the following
dimensions: Diameter = 20 ??, Thickness = 10 ??
a) Determine: ?1, ?2 and ?3 (at ???).
b) Determine: ?4 (in ???).
P4 Q GAS P, GAS 0.2 m DR = 1 P20- GAS 0.2 m DR = 2 P3 GAS ई 0.6 m 0.4 m DR = 3
Consider the grounded dielectric sheet in figure below. The thickness d 2 mm and its relative permittivity is 3 (1) Numerically calculate the propagation constant of the dominant TM mode using either the Newton-Raphson method or the fzero function of Matlab for wavelength range from d to 100d. (2) Calculate the Ez field at 40 GHz for x ranging from 0 to 5d. Plot the normalized propagation constant and Ez, sample plots are given below Dielectric Ground plane d-1mm, f...
In the figure, the AB gate 3,464 long and 2m wide (perpendicular
to the paper) separates 2 compartments. The piston weighs 20 KN and
its area is 1 m2, determine F (in KN) so that the system
is in equilibrium.
DR= Relative density
F 20 kPa I 15 GAS T 2.5 DR = 0.6 2.4 DR = 1.5 E 1.5 DR = 0.8 DR = 2 3 DR = 1 1.5 t 1.1 DR = 1.2
Fluids:
3. The fire truck shown in the figure below is parked on an ice covered road. It produces a water jet with a velocity, V 35 which is directed towards the fire as shown. The diameter of the jet is 80 mm and it is positioned on the longitudinal plane of symmetry of the truck. The weight of the truck is 100 kN. The water density, p 996 kg/m3, and the viscosity, 0.00093 kg/ms. Do the following: a) Draw...
3.93 w Air contained in a piston-cylinder assembly undergoes two processes in series, as shown in Fig. P3:93. Assuming ideal gas behavior for the air, determine the work and heat transfer for the overall process, each in kJ/kg. Isothermal process Ti = 300 K (bar) 1 °C 0.1 0.2 0.3 0.4 V (m) 0.5 0.6 FIGURE P3.93
3. We obtain autocorrelation function of residuals of the five autoregressive models: AR(1), AR(2), AR(3), AR(4) and AR(5). Choose a model that performs reasonably well, according to the plots of autocorrelation function. Explain the reason (no more than 20 words.) Autocorrelation function for AR(1) model Series ar1$residuals 1.0 RO 0.6 ACF 0.4 -0.2 0.0 0.2 0 5 10 15 Lag Autocorrelation function for AR(2) model Serles ar2$residuals 1.0 RO 0.6 ACF 0.4 -0.2 0.0 0.2 0 5 10 15 Lag...
part 1 of 3 Consider a solid insulating sphere of radius b with nonuniform charge density p = ar, where a is a constant. Find the charge contained within the radius r<b as in the figure. The volume element dV for a spherical shell of radius r and thickness dr is equal to 47 r2 dr. part 2 of 3 If a = 5 x 10-6 C/m' and b = 1 m, find E at r = 0.6 m. The...
So I have the rate but I can't remember how I solved to get the
rate can someone help me figure this out?
not sure if this other graph will help but I attached it as
well.
Acetone] [H] Rate 2.4 x 10 5.7 x 106 Trial # 1 0.54M 0.2M 2 2 1.08 M 3 1.62 M 0.2M 8.6x10 4 0.54 M 5 0.54M 0.2 M 0.4 M 5.3 x 106 8.1x106 0.6 M Trial # t(s) tHs) 4:18...
please label with detailed steps ! thank you
Question 2: (15 marks) Bracket ABC has loads applied as identified in Figure 2. A steel control rod A with ultimate normal stress of 600 MPa is attached to point B. At point C the steel pivot pin has an ultimate shearing stress of 350 MPa. Assuming a factor of safety of 3.3 determine: (i) The minimum acceptable diameter of the control rod AB (ii) The minimum acceptable diameter of the pivot...
A counter-flow heat exchanger is stated to have an overall heat transfer coefficient of 284 W/m2.K when operating at design and clean conditions. Hot fluid enters the tube side at 101°C and exits at 71°C, while cold fluid enters the shell side at 27°C and exits at 42°C. After a period of use, built-up scale in the heat exchanger gives a fouling factor of 0.0004 m2 K/W. The surface area is 93 m². Assume both hot and cold fluids have...
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