Please explain and show any generic formulas used! I want to make sure I am on the right track. Thanks!
Please explain and show any generic formulas used! I want to make sure I am on...
please answer both problems in detailed solution. I will rate
you up
In the circuit shown below, let Isi = 2 mA, I2 = 3 mA, RI = 2.5 k 2, R2 = 6 k2, R3 = 4 k. Use nodal analysis to find V and V2. V2 R2 w ska + Is2 Is 1 12mA V1 V2 R3 318 R1 32.5KN w akin . Is = 2 mA , Vs - 6 V , R = 1.5 k 2...
Please show all steps and any formulas or equations used!! Thank
you!
Use mesh analysis to find the real current lo(t). Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display 2 kQ 1 LF 10 cos 103t V() 8 0.4 H (+) 20 sin 1036 V
PLEASE BE AS DETAILED AS POSSIBLE as i am still learning this,
please show me all formulas u used, thank you in advanced
R = 1 ks2 1:3 4. (10 pts) In the ideal transformer circuit at right, Vs = 17Vpeak a) Reflected (input) impedance ZR= ---- b) Transformer primary voltage V1= --—_VRMS c) Output secondary voltage Vout= - d) Output power in Rload Pout= ___mW e) Power generated by source Ps= _____mW
PLEASE solve and show formulas
used in Excel! I am so slow at this! thank you! :)
Use the cells on this sheet to make calculations. Calculate the probability of pulling 4 straight Kings or Queens one after the other from a deck of 52 cards. Calculate the probability of pulling 2 face cards (King or Queen or Jack) in 3 tries from a deck of 52 cards.
Please help me with all. 3 questions. I need to use it to study
for the main deal
thank you!
Problem 1 Given the circuit shown in Figure 1. Determine the value of V1 and 12. Hint: Convert mutual inductance in equivalent model with correct polarities. j5 12 + 12 10/0° Av j10 22 j10 Ω 1+ 100/0° V Figure 1 Problem 2 Obtain V, and V2 in the ideal transformer circuit of Figure 2. Hint: Convert current to voltage...
Please help with electrical
circuits!!!!!!!!!!!!!!
A single pdf file showing ALL work must be received by instructor by 12:00pm, April 15, 2020. The two problems below constitute Test 2 for this semester: Q1 (50 pts): Modified version of Problem 6.21 (d) Solve for the voltage across the 50 resistor in Figure 6.48 (d) using i) Mesh Analysis, ii) Nodal Analysis, AND iii) Superposition. iv) Confirm that all three approaches produce the same answer. Be sure to indicate polarity wherever/whenever appropriate...
please do both and make sure it's correct. I really need help
and i have gotten the wrong answer twice.
When gas expands in a cylinder with radius r, the pressure P at any given time is a function of the volume V: P = P(V). The force exerted by the gas on the piston (see the figure) is the product of the pressure and the area: F = ner2p. The work done by the gas when the volume expands...
Problem # 13
Please show all steps, formulas or any visuals necessary so that
I may better understand how to approach other similar problems
because I don't know how to get started, thank you.
In Exercises 9 through I2, decide whether the given ma- trix is invertible. Find the inverse if it exists. In Exercise 12, the constant k is arbitrary. 9. 10. 12. 13. Prove the following facts: a. The 2 x 2 matrix is invertible if and only...
Can you please explain the equation you use, I am having
trouble understanding which ones to use and why.
Problem 5: Betty and Bob are interested in borrowing money for 4 years as per compound interest. They have shopped around and have found the following plans: Plan 1: 8% per annum continuously compounded for the first year and 9% per annum continuously compounded for the next 3 years. Plans 2: 10% per annum continuously compounded for the first 18 months...
please explain your answer as i am a little slow
For the following questions, provide the following information, (1) If a molecular formula is provided, indicate the units of unsaturation in this molecule. (2) Label any important relevant peaks in the IR spectrum by indicating which type of bond it corresponds to (3) If the integration is not provided in the 'H NMR spectrum, determine the integration for each signal in this spectrum (4) Examine the mass spectrum carefully. If...