mL/hr X drop factor = gtt/min
60 minutes
100 ml in 45 minutes
= 2.222 ml in one minute
= 2.222 x 60
= 133.32 ml/hr
= 133.32 ml/hr x 10gtt/ml/60
= 1333.2
= 1333.2/60
= 22.22 gtt/min
= 22gtt/min
Vee and Tee are two planets in a solar system with star Uhu at the center. An observer Chee lives on Tee, and knows that the distance from Tee to Uhu is 1.723 AU (astronomical unit). At certain time, Chee noticed that the observation angle of the planet Vee to the line of sight to the star Uhu is 37.76°, which is indicated as a red dot in the figure below. According to the other analysis of the light signal...
NI Multisim 14.2 required!
VCC VCC Vin=Vmcos(wt) 3 16 Vo1 Vo2 R1 VEE VEE Multi-Sim: Vcc VEE Ri(k) R2(k) Vin Vol (p-p) V.2 (p-p) Ex. Gain1 (Vo/Vin) Th.Gain2 (1+R2/R1) Ex.Gain2 (V.2/1.1) (p-p) Ex Total Gain (V.2/Vin) 15V -15V 10 1V | 1V 101V 1kHz 10kHz 10kHz 1
SYSTEM ENGINEERING Compare and contrast the waterfall, spiral, cycle, and Vee models of the systems engineering process. In particular, what (e.g., functions performed, time sequence of functions, outputs produced, interaction with stakeholders) is the same in each of these processes and what is different? Are there some categories of systems for which one process would be better than the others? Use outside references to gain more information on the Waterfall, Spiral, Cycle and Vee models.
Student Number +Voc Question 1 (220 points) Consider the circuit shown on the right. Vcc VEe Rc Rc 15V. IEE 0.1 mA. REE 350 k2. Rc 70 k. The two BJTS are identical with B-100. The two MOSFETS are identical with K = 250 HA/V2 and |V= 2V M3 M4 , and , are pure ac sources. Determine the ratio (this is called the differential gain) U2 a-a REE IEE T -VEE
WileyPLUS The Magnetic FL. The Magnetic FL.. The Magnetic FL.. Mathway WileyPLUS: MyWileyPLUS I Help I Contact Us S Chabay, Matter & Interactions, 4e GENERAL PHYSICS II: CALCULUS-BASED (PH ractice Assignment Gradebook Downloadable eTextbook gnment FULL SCREEN PRINTER VERSION BACK PIUUIC L4 (UILISuep The magnetic field in a solenoid is B=(HoNI) /d. A circular wire of radius 8 cm is concentric with a solenoid of radius 6 cm and length d 3 meter, containing 7000 turns. The current increases at...
This is Part a,
I need solution for part B.
b) Set up the following circuit VCC R1 100Ω Vin VEE R2 ns Repeat the measurements above 2- Introduction to Transformer a) Set up the following circuit VCC Vin 741 VEE vin(t)- Vm sin (ot), Vm 2 15v, where o 377 rad/s Measure the amplitude of the Vde, Vab, Vbc, Vac, calculate their RMS values. Also, find the turn ratio of iii (d-e): (a-c)
b) Set up the following circuit...
2. (10 Points) Fine an arrangement of the following functions fl, f2u10 so that fl-0(f2), f2 -O(f3),.., f(9)-0(f10). Also indicate which functions grow at the same asymptotic rate. lg[n!), In(n), n, 2(2n), 2(n*), nlg(n) lg(n), n2, 1, lg(n)
18
QUESTION 18 How is glucose filtered load (FL) related to plasma glucose concentration (PC) and glomerular filtration rate (GFR)? FL - log(GFR/PC) FL GFR/PC O FL GFR x PC FL PC/GFR OFL = GFR + PC
motor drives a water pump through a vee belt transmission system as shown in motor pulleys have diameters D,-600 mm and Di-200 mm, centres is d-1.5 m. The friction coefficient between 1. An electric Figure 1. The pump and respectively. The distance between pulley th e belt and pulleys is 0.4. If the motor rotates at 2000 rpm in clockwise direction determine: (4 marks) (3 marks) (4 marks) a) the lap angle on pulley D2; b) the tight and slack...