At the resonant frequency, the speaker efficiency is greater so the sound will be louder. For voice radio, a resonance near 2500 Hz might improve intelligibility. For music radio, a resonance at about 200 Hz will enhance the perceived bass from the radio. For high fidelity sound, a flat response from 20 Hz to 20000 Hz is needed. In practice only the highest quality kit comes close to this. Mostly resonance causes unpleasant colouration of the sound. You can learn a lot by playing with the graphic equaliser that ships with many computer sound cards and products like iTunes. Turn up the volume on different frequencies to see what it sounds like.
You need to make sure the impedance matches or you will blow you amplifier! It would be best to replace it with the same brand as the speakers, feed it with a digital cable. There won't be a problem of overloading your amplifier.
Jason Martin better known as Problem is a rapper from Compton, California.
13x69 is just a multiplation problem. Also the answer to that problem is 897
he hasn't got a problem her name rimes with most words
no
Parasitic capacitance is the inherent capacitance between different planes of metal in a circuit. The main problem is that capacitors look like shorts to high frequencies, which can then simulate grounding shorts, line linkage, feedback paths and other generally undesirable features in the circuit. In particular, in ICs, the problem is 'crosstalk', wherein signals in one part of the IC induce a signal through capacitive coupling in another part of the circuit.
Since mobile phones switches frequencies in the UK - you should be OK - BUT - check with the hospital concerned in case they have a problem.
A dilemma is when you are stuck for choice on two or more items or problem with human beings and personal pieces of information.
The major problem with resistors at high frequencies is for wire-wound (power) resistors, that will act as inductors at high frequencies. In addition, very small resistors, like chip resistors, can also exhibit capacitive effects. Special high frequency resistors are designed to offset these effect.[1]
No Problem to do this, but there are really no amplifiers with an output impedance of 16 ohms on the market. All loudspeaker amplifiers have an impedance of less than 0.5 ohm. Scroll down to related links and look at "Impedance bridging - Wikipedia".
No Problem to do this, but there are really no amplifiers with an output impedance of 4 ohms on the market. All loudspeaker amplifiers have an impedance of less than 0.5 ohm. Scroll down to related links and look at "Impedance bridging - Wikipedia".
A dilemma is a situation in which a difficult choice has to be made between two or more alternatives, especially equally undesirable ones. It often involves a conflict between equally important values or ethical principles.
Here is an example problem for you to consider: How many octaves are there between 13 Hz and 4 Hz? You would solve thisproblem using the following equation:
No Problem to do this, but there are really no amplifiers with an output impedance of 8 ohms on the market. All loudspeaker amplifiers have an impedance of less than 0.5 ohm. Scroll down to related links and look at "Impedance bridging - Wikipedia".
when making a call and you want to use the loudspeaker feature just press for 3 seconds the screen lock button located at the upper-right of your phone.. I've experienced also this kind of problem...hope this helped
No Problem to do this, but there are really no amplifiers with an output impedance of 4 ohms on the market. All loudspeaker amplifiers have an impedance of less than 0.5 ohm. Scroll down to related links and look at "Impedance bridging - Wikipedia".
To solve this problem, yaw systems incorporate pre-tensioned gliding bearings. These bearings have gliding pads that are pressed via pressure elements against the gliding disk to stabilize the nacelle against undesirable movement.