How many supply pads

Some girls have heavier bleeding with their periods and others have lighter bleeding. And most girls have a light days and heavier days. Pads can vary by size or by absorbency. You want to try to find a pad that is big enough that you don't worry about leaking through, but is small enough to be comfortable.

It might take a little bit of experimenting to find the right pad for the different times of your period. Some pads are scented or come with a deodorant in them. But these can irritate the vagina or cause an allergic reaction in some girls. Pads should be changed every 3—4 hours, even if you have a light flow. Regular changing prevents buildup of bacteria and stops odor. If you have a heavier flow, you might need to change pads more often to make sure you don't leak.

Tampons absorb blood from inside the vagina. A tampon is also made of absorbent material, but it's compressed into a small tube. Tampons come in different sizes and absorbencies for heavier and lighter periods. Tampons also can come with or without deodorant. There's no need for deodorant in a tampon, though, because changing tampons regularly usually gets rid of any odor. The deodorant in tampons can irritate the vagina, and could cause an allergic reaction in some girls.

Some tampons come with an applicator. An applicator is a plastic or cardboard tube that guides the tampon into the vagina. Other tampons are inserted using a finger. Some girls find that a slender size, applicator-style tampon is easier to use when they first start their periods.

An applicator with a rounded top can be especially helpful for beginners. The first time you use a tampon, try to do so on a heavier flow day. This will make the tampon slip in easier. A tampon is put into the vagina using an applicator or a finger. After washing your hands, follow the directions that come with the tampons carefully and be sure to relax. It's very important to change tampons every few hours and that you wear the absorbency type that is right for you.

Change a tampon every 4—6 hours or when it's saturated with blood. Tampons have a string attached to one end that stays outside a girl's body. To remove the tampon, pull gently on the string until the tampon comes out. Wrap it in toilet paper and throw it in the trash. Output pads must be capable of providing relatively large currents for off-chip wiring, perhaps the inputs to several other devices.

This must all be done with minimum expenditure of area and without slowing down signals to an unacceptable extent. In general, the faster a circuit is required to run, the higher the output current drive capability must be because charge must be delivered more rapidly to the device being driven. The driver circuit must act as a buffer so that changes in output loading do not affect the rest of the chip circuitry.

Drivers are typically composed of logic inverters with high current drive capability. Often an even number of inverters may be connected in cascade if a non-inverting driver structure is required.

The simplest type of design just uses a single inverter, but with very large transistors that have a high current-drive capability. A design of this type is shown in Figure The geometric arrangement tries to ensure that the source fingers are perpendicular to the dominant direction of current flow.

This is again a device to try to reduce the likelihood of latchup. There is also a relatively large spacing between the n and p transistors, which will also reduce the likelihood of latchup. Because the currents carried are large, a number of vias are used for the contacts between the two metal layers.

The sizing of the transistors depends on the capacitance of the load being driven and the required rise and fall times, t R and t F , for the output pulse. The relevant equations are:. These equations can be used to calculate the geometric ratios of the transistors for a certain load, but the channel length must still be decided.

For minimum geometry logic gate structures it is conventional to use the smallest permissible channel length L. A significant disadvantage of the single stage inverter-driver is that it imposes a heavy capacitive load on the previous stage - which may be a minimum geometry device. The propagation delay t of this earlier stage will thus be increased, and may be estimated from the usual formula More generally, for a chain of cascaded inverters driven from some source resistance R 0 and C 0 respectively, and ultimately driving a pad and external circuitry of capacitance C L , we can write Although R i is not a resistance in the strictest sense, it is a parameter with the dimensions of resistance, and is represented by a term of the form Intuition suggests that using gates of suitably graded dimensions , each one constructed from larger transistors than used in its predecessor, should minimise T.

We have. In practice, any value of g between 2 and 8 is acceptable. The layout of a four-stage output pad driver of this type is shown in Figure The interdigitated layout technique used for transistor sources and drains is elaborate, but leads to a compact design.

Many VLSI components have multiple outputs. On his list hey only listed up to 6 bases so i was wondering if that was the max or if he just didnt see a need to keep posted results. Yes you keep on getting money, and if there even is a point to when it stops it will be impossible or implausible to reach so there's no point in trying to find it out.

User Info: MrSty. The more supply pads, the more resources. I found this out with the prophet of regret. The more supply pads you have the less resources his cleansing beam takes away obviously. But I kept going to see if I can reach a point where it stops taking resources: 3 bases. Units at each forerunner supply elevator.

Then I destroyed 1 supply pad every 10 seconds to see if my cleansing beam would take more resources per second. And it did every time I destroyed 1. So no, the supply pads never lose their cause. I have no patience for bestiality User Info: EmperorLinkX. Death to Gnomes and Murlocs!

More topics from this board What order do you activate the interlocks? General 9 Answers How do I heal my units? General 3 Answers What is the best strategy for destroying a scarab?