A single-phase transformer has 400 primary and 1000 secondary turns. The net cross-sectional area of the core is 60 cm². The primary winding is connected to a 500 V supply. Find the (i) peak value of the core flux density and the (ii) emf induced in the secondary winding.
Added by Heather P.
Close
Step 1
$N_p = 400$ $N_s = 1000$ The net cross-sectional area of the core is $A = 60 \, cm^2 = 60 \times 10^{-4} \, m^2$. The primary winding is connected to a 500 V supply. Let $V_p$ be the primary voltage. $V_p = 500 \, V$ Show more…
Show all steps
Your feedback will help us improve your experience
Shaiju T and 80 other Physics 102 Electricity and Magnetism educators are ready to help you.
Ask a new question
Labs
Want to see this concept in action?
Explore this concept interactively to see how it behaves as you change inputs.
Key Concepts
Recommended Videos
A single phase transformer has 400 primary and 1000 secondary turns. The net cross-sectional area of the core is 60 cm^2. If the primary winding be connected to a 50 hz supply at 520 volts. calculate: (a) the peak value of flux density in the core. (b) the voltage induced in the secondary winding.
Shaiju T.
A single phase transformer has 400 primary turns and 1000 secondary turns. The net cross-sectional area of the core is 60 cm2. If the primary winding is connected to a 50 hz supply at 520V, Calculate i) Secondary e.m.f., ii) The peak value of flux density in the core.
Breanna O.
Vishal G.
Recommended Textbooks
University Physics with Modern Physics
Physics: Principles with Applications
Fundamentals of Physics
Transcript
18,000,000+
Students on Numerade
Trusted by students at 8,000+ universities
Watch the video solution with this free unlock.
EMAIL
PASSWORD