Docsity
Log inSign up
Docsity
Prepare for your exams
Prepare for your exams

Study with the several resources on Docsity

Earn points to download
Earn points to download

Earn points by helping other students or get them with a premium plan

Guidelines and tips
Guidelines and tips
Sell on Docsity
Sell on Docsity
Log inSign up

Prepare for your exams

Study with the several resources on Docsity

Find documents

Prepare for your exams with the study notes shared by other students like you on Docsity

Search Store documents

The best documents sold by students who completed their studies

Search through all study resources
Docsity AINEW

Summarize your documents, ask them questions, convert them into quizzes and concept maps

Explore questions

Clear up your doubts by reading the answers to questions asked by your fellow students

Earn points to download

Earn points by helping other students or get them with a premium plan

Share documents
download point icon20 Points

For each uploaded document

Answer questions
download point icon5 Points

For each given answer (max 1 per day)

All the ways to get free points
Get points immediately

Choose a premium plan with all the points you need

Study Opportunities

Choose your next study program

Get in touch with the best universities in the world. Search through thousands of universities and official partners

Community

Ask the community

Ask the community for help and clear up your study doubts

University Rankings

Discover the best universities in your country according to Docsity users

Free resources

Our save-the-student-ebooks!

Download our free guides on studying techniques, anxiety management strategies, and thesis advice from Docsity tutors

From our blog

Exams and Study
Go to the blog

Chapter 11 seatwork AC POWER ANALYSIS , Summaries of Electrical Circuit Analysis

Mindanao State University - Iligan Institute of Technology (MSUIIT)Electrical Circuit Analysis
Prof. Ellen Gulben

Try to remember your Chapter 11 so you can easily to answer the problem solving

Typology: Summaries

2023/2024

Uploaded on 05/09/2024

kinsa-ka
kinsa-ka 🇵🇭

1 / 3

Toggle sidebar

This page cannot be seen from the preview

Don't miss anything!

bg1
1. Oscilloscope measurements indicate that the
voltage across a load and the current
through it are, respectively, 21060° V and
825° A . Determine:
(a) the real power
(b) the apparent power
(c) the reactive power
(d) the power factor
2. A 120-V rms, 60-Hz electric hair dryer
consumes 600 W at a lagging pf of 0.92.
Calculate the rms-valued current drawn by the
dryer.
3. A 240-V rms 60-Hz supply serves a load that
is 10 kW (resistive), 15 kVAR (capacitive),
and 22 kVAR (inductive). Find:
(a) the apparent power
(b) the current drawn from the supply
(c) the kVAR rating and capacitance required to
improve the power factor to 0.96 lagging
(d) the current drawn from the supply under the
new power-factor conditions
4. Two loads connected in parallel draw a total
of 2.4 kW at 0.8 pf lagging from a 120-V
rms, 60-Hz line. One load absorbs 1.5 kW at a
0.707 pf lagging. Determine: (a) the pf of
the second load, (b) the parallel element
required to correct the pf to 0.9 lagging for the
two loads.
5. Three loads are connected in parallel to a
1200° V rms source. Load 1 absorbs 60
kVAR at pf = 0.85 lagging, load 2 absorbs 90 kW
and 50 kVAR leading, and load 3
absorbs 100 kW at pf = 1. (a) Find the equivalent
impedance. (b) Calculate the power
factor of the parallel combination. (c) Determine
the current supplied by the source.
1. Oscilloscope measurements indicate that the
voltage across a load and the current
through it are, respectively, 21060° V and
825° A . Determine:
(a) the real power
(b) the apparent power
(c) the reactive power
(d) the power factor
2. A 120-V rms, 60-Hz electric hair dryer
consumes 600 W at a lagging pf of 0.92.
Calculate the rms-valued current drawn by the
dryer.
3. A 240-V rms 60-Hz supply serves a load that
is 10 kW (resistive), 15 kVAR (capacitive),
and 22 kVAR (inductive). Find:
(a) the apparent power
(b) the current drawn from the supply
(c) the kVAR rating and capacitance required to
improve the power factor to 0.96 lagging
(d) the current drawn from the supply under the
new power-factor conditions
4. Two loads connected in parallel draw a total
of 2.4 kW at 0.8 pf lagging from a 120-V
rms, 60-Hz line. One load absorbs 1.5 kW at a
0.707 pf lagging. Determine: (a) the pf of
the second load, (b) the parallel element
required to correct the pf to 0.9 lagging for the
two loads.
5. Three loads are connected in parallel to a
1200° V rms source. Load 1 absorbs 60
kVAR at pf = 0.85 lagging, load 2 absorbs 90 kW
and 50 kVAR leading, and load 3
absorbs 100 kW at pf = 1. (a) Find the equivalent
impedance. (b) Calculate the power
factor of the parallel combination. (c) Determine
the current supplied by the source.
pf3

Partial preview of the text

Download Chapter 11 seatwork AC POWER ANALYSIS and more Summaries Electrical Circuit Analysis in PDF only on Docsity!

voltage across a load and the current through it are, respectively, 210∠ 60 ° V and 8 ∠ 25 ° A. Determine: (a) the real power (b) the apparent power (c) the reactive power (d) the power factor

  1. A 120-V rms, 60-Hz electric hair dryer consumes 600 W at a lagging pf of 0.92. Calculate the rms-valued current drawn by the dryer.
  2. A 240-V rms 60-Hz supply serves a load that is 10 kW (resistive), 15 kVAR (capacitive), and 22 kVAR (inductive). Find: (a) the apparent power (b) the current drawn from the supply (c) the kVAR rating and capacitance required to improve the power factor to 0.96 lagging (d) the current drawn from the supply under the new power-factor conditions
  3. Two loads connected in parallel draw a total of 2.4 kW at 0.8 pf lagging from a 120-V rms, 60-Hz line. One load absorbs 1.5 kW at a 0.707 pf lagging. Determine: (a) the pf of the second load, (b) the parallel element required to correct the pf to 0.9 lagging for the two loads.
  4. Three loads are connected in parallel to a 120 ∠ 0 ° V rms source. Load 1 absorbs 60 kVAR at pf = 0.85 lagging, load 2 absorbs 90 kW and 50 kVAR leading, and load 3 absorbs 100 kW at pf = 1. (a) Find the equivalent impedance. (b) Calculate the power factor of the parallel combination. (c) Determine voltage across a load and the current through it are, respectively, 210∠ 60 ° V and 8 ∠ 25 ° A. Determine: (a) the real power (b) the apparent power (c) the reactive power (d) the power factor
  5. A 120-V rms, 60-Hz electric hair dryer consumes 600 W at a lagging pf of 0.92. Calculate the rms-valued current drawn by the dryer.
  6. A 240-V rms 60-Hz supply serves a load that is 10 kW (resistive), 15 kVAR (capacitive), and 22 kVAR (inductive). Find: (a) the apparent power (b) the current drawn from the supply (c) the kVAR rating and capacitance required to improve the power factor to 0.96 lagging (d) the current drawn from the supply under the new power-factor conditions
  7. Two loads connected in parallel draw a total of 2.4 kW at 0.8 pf lagging from a 120-V rms, 60-Hz line. One load absorbs 1.5 kW at a 0.707 pf lagging. Determine: (a) the pf of the second load, (b) the parallel element required to correct the pf to 0.9 lagging for the two loads.
  8. Three loads are connected in parallel to a 120 ∠ 0 ° V rms source. Load 1 absorbs 60 kVAR at pf = 0.85 lagging, load 2 absorbs 90 kW and 50 kVAR leading, and load 3 absorbs 100 kW at pf = 1. (a) Find the equivalent impedance. (b) Calculate the power factor of the parallel combination. (c) Determine

voltage across a load and the current through it are, respectively, 210∠ 60 ° V and 8 ∠ 25 ° A. Determine: (a) the real power (b) the apparent power (c) the reactive power (d) the power factor

  1. A 120-V rms, 60-Hz electric hair dryer consumes 600 W at a lagging pf of 0.92. Calculate the rms-valued current drawn by the dryer.
  2. A 240-V rms 60-Hz supply serves a load that is 10 kW (resistive), 15 kVAR (capacitive), and 22 kVAR (inductive). Find: (a) the apparent power (b) the current drawn from the supply (c) the kVAR rating and capacitance required to improve the power factor to 0.96 lagging (d) the current drawn from the supply under the new power-factor conditions
  3. Two loads connected in parallel draw a total of 2.4 kW at 0.8 pf lagging from a 120-V rms, 60-Hz line. One load absorbs 1.5 kW at a 0.707 pf lagging. Determine: (a) the pf of the second load, (b) the parallel element required to correct the pf to 0.9 lagging for the two loads.
  4. Three loads are connected in parallel to a 120 ∠ 0 ° V rms source. Load 1 absorbs 60 kVAR at pf = 0.85 lagging, load 2 absorbs 90 kW and 50 kVAR leading, and load 3 absorbs 100 kW at pf = 1. (a) Find the equivalent impedance. (b) Calculate the power factor of the parallel combination. (c) Determine voltage across a load and the current through it are, respectively, 210∠ 60 ° V and 8 ∠ 25 ° A. Determine: (a) the real power (b) the apparent power (c) the reactive power (d) the power factor
  5. A 120-V rms, 60-Hz electric hair dryer consumes 600 W at a lagging pf of 0.92. Calculate the rms-valued current drawn by the dryer.
  6. A 240-V rms 60-Hz supply serves a load that is 10 kW (resistive), 15 kVAR (capacitive), and 22 kVAR (inductive). Find: (a) the apparent power (b) the current drawn from the supply (c) the kVAR rating and capacitance required to improve the power factor to 0.96 lagging (d) the current drawn from the supply under the new power-factor conditions
  7. Two loads connected in parallel draw a total of 2.4 kW at 0.8 pf lagging from a 120-V rms, 60-Hz line. One load absorbs 1.5 kW at a 0.707 pf lagging. Determine: (a) the pf of the second load, (b) the parallel element required to correct the pf to 0.9 lagging for the two loads.
  8. Three loads are connected in parallel to a 120 ∠ 0 ° V rms source. Load 1 absorbs 60 kVAR at pf = 0.85 lagging, load 2 absorbs 90 kW and 50 kVAR leading, and load 3 absorbs 100 kW at pf = 1. (a) Find the equivalent impedance. (b) Calculate the power factor of the parallel combination. (c) Determine