What is Time constant: Definition and 147 Discussions

In physics and engineering, the time constant, usually denoted by the Greek letter τ (tau), is the parameter characterizing the response to a step input of a first-order, linear time-invariant (LTI) system. The time constant is the main characteristic unit of a first-order LTI system.
In the time domain, the usual choice to explore the time response is through the step response to a step input, or the impulse response to a Dirac delta function input. In the frequency domain (for example, looking at the Fourier transform of the step response, or using an input that is a simple sinusoidal function of time) the time constant also determines the bandwidth of a first-order time-invariant system, that is, the frequency at which the output signal power drops to half the value it has at low frequencies.
The time constant is also used to characterize the frequency response of various signal processing systems – magnetic tapes, radio transmitters and receivers, record cutting and replay equipment, and digital filters – which can be modeled or approximated by first-order LTI systems. Other examples include time constant used in control systems for integral and derivative action controllers, which are often pneumatic, rather than electrical.
Time constants are a feature of the lumped system analysis (lumped capacity analysis method) for thermal systems, used when objects cool or warm uniformly under the influence of convective cooling or warming.Physically, the time constant represents the elapsed time required for the system response to decay to zero if the system had continued to decay at the initial rate, because of the progressive change in the rate of decay the response will have actually decreased in value to 1 / e ≈ 36.8% in this time (say from a step decrease). In an increasing system, the time constant is the time for the system's step response to reach 1 − 1 / e ≈ 63.2% of its final (asymptotic) value (say from a step increase). In radioactive decay the time constant is related to the decay constant (λ), and it represents both the mean lifetime of a decaying system (such as an atom) before it decays, or the time it takes for all but 36.8% of the atoms to decay. For this reason, the time constant is longer than the half-life, which is the time for only 50% of the atoms to decay.

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  1. skibidi

    What is the maximum current in a RL circuit using V=IR?

    I found the time constant using L/R and got 0.62s (3.6H/5.8ohms) I found the initial current V/R and got 4.086A (23.7V/5.8ohms) I(f) = 4.086A(1-e^(-0.5s/0.62s)) Then I plugged it into the equation and got 2.26A and it was wrong
  2. abdulbadii

    I Outright understanding L/R inductor time constant

    How is the real understanding, when an external constant E potential (voltage) is imposed/applied on a LR circuit, that is being charged as the characteristic L/R inductor time constant: the greater R the shorter time inductor get (full) charged This absolutely independent to the E; it could...
  3. T

    Measuring time constant using an inductor with a core vs. no core

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  4. boysenbeary

    Engineering Finding Time Constant T Without L for an LR Circuit

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  5. greg_rack

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  6. G

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  7. E

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  8. B

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  9. Abo

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  10. Abo

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  11. paulmdrdo

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  12. dvscrobe

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  13. Shivang kohlii

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  14. A

    Engineering Find the time constant for this RC circuit, help please

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  15. F

    Find the time constant of the circuit

    Homework Statement In the circuit shown S is closed at t = 0 . Find the time constant (in s) if C = 2μF. Homework Equations τ = Req C The Attempt at a Solution R = ##\frac{10*10}{10+10}## R = 5MΩ τ = 5*106 * 2*10-6 = 10 s Could somebody check my answer?
  16. J

    Time constant of an inductor coil

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  17. G

    Engineering Inductor circuit time constant

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  18. J

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  19. J

    Time constant of a transfer function

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  20. J

    Engineering What is the Time Constant for an RLC Circuit?

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  21. H

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    Homework Statement How long does it take in time constants ( = RC) for the charge on the capacitor in the circuit shown below to reach one quarter its initial value? Homework Equations C=Q/V time constant=RC Vc = Vo * (e)^(-t/RC) The Attempt at a Solution From C=Q/V I get Q=VC so for the...
  22. N

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  23. W

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  24. solour

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  25. A

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  26. O

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  29. H

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  30. K

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  31. R

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  32. G

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    For the circuit shown in the figure, the switch S is suddenly closed with the capacitor uncharged. After one time constant, the charge on the capacitor is closest to: a) 2.0 mC b) 0.74 mC c) 1.0 mC d) 1.3 mC e) 0.00 mCRelevant Formulas q = Q⋅(1-e-τ/R⋅C) τ = RC My Attempt q = Q(1-e-τ/T) q =...
  33. V

    Time Constant ≠ Time constant from experiment

    Homework Statement Hello, In a lab experiment, we wanted to compare the time constant in a simple RC circuit by comparing the value of Resistance * Capacitance that we measure directly and the value of RC that we get from the procedure. The procedure entailed using a wave generator and an...
  34. K

    A gong that makes damped oscillation

    Homework Statement A gong makes a loud noise when struck. The noise gradually gets less and less loud until it fades below the sensitivity of the human ear. The simplest model of how the gong produces the sound we hear treats the gong as a damped harmonic oscillator. The tone we hear is related...
  35. T

    How do you work out wave envelopes and asymmetries?

    Hi Say I took one or all of the four waves here: How would I go about working out the envelope around their peaks, or finding the exponential time constant from start to steady state? Cheers!
  36. J

    Significance of RC time constant

    In a simple series RC circuit, when t=RC, the voltage across the resistor and capacitor is the same. Why is this physically significant and why do we choose this as the time constant that dictates the cutoff frequency?
  37. Rath123

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    How can a time constant, in parallel plates, be the original value without changing the capacitor?
  38. AdityaDev

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    The cell can provide conatant emf ε and initial charge of capacitor is zero. Now current through resistor initially is zero and increases. But the potential difference across the capacitor is always a constant with magnitude ε. then ##\frac{q(t)}{C}=E## So ##q(t)=CE## which implies q is constant...
  39. R

    How Long Does It Take for a Capacitor to Charge to 8V in an RC Circuit?

    Homework Statement A 8500 Ω resistor is joined in series with a 80 μF capacitor. a) What is the capacitive time constant of this combination? (Solved: 0.65 s) b) If a 9.0 volt battery is suddenly connected across this RC combination, how long will it take for the capacitor voltage to reach 8.0...
  40. D

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  41. ranju

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  42. J

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    This one is for people working with electromagnets (more specific, DC) etc. I have a few questions that I am struggling with: I am quite comfortable with the concept of the response time (time constant) of a coil in free space, μ0 =4π x 10-7 . The thing I am struggling with is the response time...
  43. A

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  44. I

    Engineering Finding Resistance in an RL Circuit for Time Constant Calculation

    Homework Statement Homework Equations τ = L/R The Attempt at a Solution So I already know the initial current and final current (-4mA and -1mA, respectively), my question is how I would find the resistance value to use to solve for the time constant. After the switch has been closed for a...
  45. ilovescience85

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    Good evening all, I am looking for some clarity on a question I am answering at the moment. An inductor of negligible resistance and an inductance of 0.2H is connected in series with a 330ohm resistor to a 12v d.c. Supply determine: A - the time constant of the circuit B - the voltage...
  46. W

    Time Constant Induction question

    Hi all, I need your help with a Time constant question? I am studying for an exam via distance learning and don't feel they have covered this question, question taken from past paper. 2. A coil of inductance 2 H and unknown resistance is connected to a D.C. supply of 100 volts. After 4 ms the...
  47. U

    Find Time Constant for RC Circuit: Solve the Equation!

    Homework Statement The time constant of charging for the capacitor shown in the figure is Homework Equations See attached diagram The Attempt at a Solution \tau = R_{eq} C R_{eq} = R/2 So the answer should be t= RC/2. But the correct answer is 0! :confused:
  48. R

    Find resistance, inductance, and the time constant for an RL circuit.

    Homework Statement A 5.0V battery is attached to an RL circuit. The current is given by the formula: I = V0/R(1-e-t/τ), where I0 is the steady-state current, and τ is the time constant for the circuit. Using the data table provided, determine τ, R, and L for this circuit. I(mA) | t(μs)...
  49. D

    MHB What is meant by find the time constant?

    I solved a DE for an electrical circuit where the input was a step input. \[ \mathcal{U}(t) = \begin{cases} 0, & \text{if } t <0\\ V, & \text{otherwise} \end{cases} \] So the solved DE for \(t > 0\) is \[ q(t) = VC + Ae^{\frac{-R}{C}t}. \] How do I find the time constant? Also, \(q(t)\) is the...
  50. H

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