Physical Science

posted by .

If we double the frequency of a vibrating object what happens to its period?

  • Physical Science -

    The period is the inverse of the frequency, so it would be reduced to half.

Respond to this Question

First Name
School Subject
Your Answer

Similar Questions

  1. vibrations

    what a vibrating object dose to the air particles around it?
  2. physics

    when an object of mass M1 is hung on a vertical spring and set vertical simple harmonic motion, its frequency is 12 Hz. When another object of mass m2 is hung on the spring along with m1, the frequency of the motion is 4hz. Find the …
  3. Science

    An object is vibrating.Yourdog can hear it but you cant .What most likely is happeningz?
  4. physics

    An object of an unknown mass is attached to an ideal spring with force constant 120 N/m and is found to vibrate with a frequency of 6.00 Hz. Find (a) the period, (b) the angular frequency, and (c) the mass of this object.
  5. Physics

    A vibrating 1000-hertz tuning fork produces sound waves that travel at 340 meters per second in air. Points A and B are some distance from the tuning fork. Point P is 20. meters from the tuning fork. 1. If the waves are in phase at …
  6. Conceptual Physical Science

    A nurse counts 72 heartbeats in 1 min. Show that the period and frequency of the heartbeats are 0.83 and 1.2 Hz, respectively.
  7. Science

    What happens to an object when it goes tough a physical change?
  8. Physics[CONCEPT- NO MATH]

    F = G(m1 x m2)/(d)^2 If you double the mass of one object and double the distance between the center of the two objects what happens to the force?
  9. Science

    A constrained string with a length of 8.5 meters is vibrating at its fundamental frequency of 113.1 Hz. What is the frequency of the 7th harmonic on this string?
  10. science

    Calculate the PRP, PRF, PD, DF, SPL, wavelength, period, and Axial Resolution if a 2 cycle pulse emitted from a 10 MHz transducer if the echo time received was 0.26 ms in soft tissue. Part II - Using the information above: 1. If the …

More Similar Questions