Well it depends on what type of wrist watch it is ... if your has a few metallic buttons on the side maybe try to turn them different ways... :D
It is impossible to answer that question. On the other hand if you assume this: - Baud rate = symbol rate - Bit rate = bits per second The following formula is valid: Baud rate = bit rate / 10 If 1024 QAM is used.
The transformer primary winding is connected to the alternating current supply. This causes a varying current in the primary winding, which creates a varying magnetic field in the transformer core. Because the primary voltage is alternating, the flux is also alternating - expanding and contracting, and changing polarity in time with the supply. This alternating core flux 'cuts' the secondary winding/s of the transformer, and induces a voltage in the secondary coil/s. As long as there is a magnetic field that is moving, and a conductor for it to move across, it will induce a voltage in the conductor. While the actual induced voltage depends on the amount of flux, the amount of conductor material and the rate of change of the flux, the actual voltage can be calculated from: Vsec = ((Vprim * Nsec) / Nprim) where V = voltage, N = number of turns of wire in the coil, prim = primary and sec = secondary. Transformers don't work on DC - they give a brief pulse out at switch-on and switch-off, because that's the only times the current is changing and the flux is moving. If you have to transform DC, you use a switching circuit that 'chops' the DC into a series of pulses that simulate AC as far as the 'moving flux' requirements of the transformer are concerned.
In a consolidated drained test the sample is consolidated and sheared in compression with drainage. The rate of axial deformation is kept constant, i.e. is strain controlled. The idea is that the test allows the sample and the pore pressures to fully consolidate (i.e. adjust) to the surrounding stresses. The test may take a long time to allow the sample to adjust, in particular low permeability samples need a long time to drain and adjust strain to stress level
Back emf is proportional to the flux in the field winding.Flux in the field winding is proportional to the mmf in the winding.mmf = current passing through the winding * no of turns in the windingTo attain the required mmf we can use more current and less turns ( or ) less current and more turns .As the power loss in the field winding is considered it isPower loss = Square of voltage / resistanceAs the voltage is constant for a high resistance it is possible to have less losses. So we prefer for high shunt field resistance.As the field resistance is high current is less , so no of turns in the shunt field will be more to attain the required mmf.Answer'Shunt' is an archaic term for 'parallel', so the shunt winding is in parallel with the supply voltage which means its resistance must be relatively high to limit the current passing through it.Incidentally, the back-emf. is not proportional to the flux, but to the rate of change of flux.
Since it the rate at which the flux is cutting the conductor determines the (EMF) electromotive force which is the voltage, the best way to control voltage is to adjust the speed of the engine through the governor, coupled with an automatic voltage regulator.
There are no professional watch winders, so an hourly rate cannot be determined. Most watches today are self winding. The few that are not simply require a few quick turns by the owner.
A nominal interest rate is an interest rate that does not factor in the rate on inflation. Nominal interest rate could also refer to an interest rate that does not adjust for the full effect of compounding.
it adjusts the heart rate to correspond to the body's need for oxygen
A nominal interest rate is an interest rate that does not factor in the rate on inflation. Nominal interest rate could also refer to an interest rate that does not adjust for the full effect of compounding.
Look at a watch that has a second hand. When it gets to 12, start counting how many times your friend takes a breath Do this for one minute. Now you have their respiration rate.
Respirations can be counted to determine the rate of a person's breathing. You need a clock or wristwatch with a second hand. Begin counting when the second hand reaches 12, and watch for when the person's chest rises during intake of a breath. Ignore exhalations. Count for a full 60 seconds. Normal rate of respirations average around 18 to 20 breaths in one minute. Exercise can temporarily raise the rate into the low 20s. Stress or being excited or upset can increase the rate as well.
A continuous heart rate monitor constantly measures the heart rate. Typically, these monitors have a chest strap that transmits the heart rate to a wrist watch continuously over the period of workout. A non-continuous monitor is a monitor that has to be told to measure the heart rate. These monitors are typically watches without a chest strap. The user measures the heart rate by pushing on the watch so that firm contact is made with the user's pulse. The watch then displays the heart rate while the user pushes on the watch.
You can adjust and refinance your mortgage rate by shopping around for the best rates in your area. By checking the current rates of local banks narrow down the lowest rate. After that visit the bank and talk to their loan officer about refinancing possibilities.
If you want a variable interest rate to fixed, refinancing your home would be the way you can accomplish this. Variable rate also known as an adjustable rate mortgage should be refinanced before your interest rate adjust.
The most important difference is the interest rate on the note remains the same through the term of the loan, instead of a common loan where the interest rate may adjust.
it can support 3gp and mp4 but in mp4 you should adjust video rate ,audio rate.In both formats you should adjust screen size.
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