Ask Question
26 February, 19:28

A certain brand of hot dog cooker applies a potential difference (120 v) to opposite ends of the hot dog and cooks by means of the joule heat produced. if 60 kj is needed to cook each hot dog, what current is needed to cook four hot dogs simultaneously in 3.0 min?

+3
Answers (1)
  1. 26 February, 23:20
    0
    If your cooker uses 120 volts and the current is 11 amperes, the total power

    it uses is 1320 watts, or 1320 joules every second. If it is divided equally among

    the 3 wieners, each wiener receives 440 watts, or 440 joules of energy every

    second. If a wiener needs 58,000 joules to cook completely, the time needed

    is 58,000 joules divided by 440 J per second, or 131.8 seconds - 2 minutes and

    11.8 seconds. In actual practice, it doesn't take much longer than this, although

    the resistance of the wieners starts out relatively high, about 200 ohms each

    and gradually decreases to about 100 ohms per wiener as the hot dogs cook.

    But for your example here, the time required is 131.8 seconds.
Know the Answer?
Not Sure About the Answer?
Get an answer to your question ✅ “A certain brand of hot dog cooker applies a potential difference (120 v) to opposite ends of the hot dog and cooks by means of the joule ...” in 📙 Physics if there is no answer or all answers are wrong, use a search bar and try to find the answer among similar questions.
Search for Other Answers