More ways that your experiences during arousal and sex result from changes in your blood flow, and how you can use fluid physics to make it even better.
Listen to the podcast with roboreaders Audrey and Paul.
Circulation's Chemical Connection
Last week, we talked about several ways to increase the volume of blood in your erectile tissues. Generally, the methods involved inhibiting the blood flow out of your groin through the veins - with selectively applied pressure or sexual aids such as cock rings and penis pumps. Another way to enhance your penile or clitoral erection is to improve the flow of blood in towards your genitals.
A simple way to do that is with the use of drugs that relax the muscles that constrict your genital arteries. The relaxed muscles allow the arteries to expand in diameter.
According to the laws of fluid physics, pressure in a tube carrying a flowing liquid will be higher where the tube diameter is larger, and lower where it is narrower.
(Incidentally, that's what happens in an arterial aneurysm. A defect in an artery leads to a bubble in the arterial wall. Because the diameter is larger in the expanded bubble, the pressure increases and leads to a growing aneurysm. It's a vicious cycle that can eventually result in a disastrous pop, or other, equally unpleasant complication.)
The expansion of the diameter of healthy genital arteries, raises the pressure in your erectile tissue, compressing the outgoing veins and increasing the volume of the erectile reservoir.
Urologist Giles Brindley famously demonstrated the approach by injecting his own penis with the muscle relaxant Phentolamine. He displayed the resulting erection, while making a presentation at a medical convention in 1983. Many men faced with erectile dysfunction began injecting their penis's with muscle relaxant, in the years following Brindley's display.
More recently, a growing number of men have opted for drugs such as Viagra and Cialis, which treat erectile dysfunction in a very different way.
The drugs don't affect arteries themselves, instead they change the chemical signals that control the arterial muscles. Although you rely on nerves for movement in most of your body, they don't directly control erectile tissue. Instead, nerves leading into your groin trigger the release of chemicals that cause the muscles in the walls of genital arteries to relax. This allows them to expand in diameter.
As your arousal subsides, enzymes in your erectile tissue break down the chemicals that relaxed the muscles in your erectile arteries. Viagra and related drugs block the enzymes. As a result, the drugs keep the levels of muscle dilating chemicals high, and the blood vessels stay open. In essence, the drugs expand the arterial vessels that lead to the genitals, rather than directly constricting the flow out through the veins, as cock rings do.
The reason that you may have heard that Viagra is not considered an aphrodisiac, even though many people think of it that way, is that it can't lead to erectile tissue engorgement unless your body produces the chemical to relax your genital arteries in the first place. Viagra can't cause arousal, as a true aphrodisiac would; it only works if you are already aroused and your body produces the initial muscle-relaxing chemical.
The enzymes in your genitals that break down the dilating chemicals are unique to your erectile tissue. They're slightly different from the enzymes in other parts of your body. Viagra is designed to block the enzyme that turns off your arousal response. But no drug is perfect. It also mildly blocks the enzymes in the tissue of your retina, which is why some people experience changes in their vision while on the drug. The various side effects of Viagra and other erectile drugs are mostly related to the fact that developing precisely targeted drugs is very difficult.
Viagra should work for women as well as men, leading to enhanced genital engorgement and the improved vaginal lubrication that comes with better blood flow. Unfortunately, recent studies have shown that because arousal in women is more complex than it is in men, most female test subjects found that Viagra did little to improve their sexual experience.
Anything that keeps the arteries from dilating can hamper sexual response. Arteries hardened by age or disease can't expand to allow the additional pressure and blood supply required for erectile tissues to swell. The nicotine in cigarettes, causes the muscles of the arteries to clamp down and reduce blood flow, particularly in the extremities and genitals. If you must smoke, try not to do it just before having sex, or else the nicotine will work against the artery-dilating chemicals accompanying arousal. Besides, you'll smell better when it comes time for that first kiss.
Even fatty foods can dampen sexual response. High concentrations of dissolved fat make blood more sticky and viscous. Thickened blood flows poorly through your arteries, which means that there's less pressure than there should be by the time blood makes it to your groin. Losing weight by cutting back on fatty foods helps blood to flow better and can increase erectile vigor, which means larger erections and more fully engorged clittorises and labia as well as smaller, sexier waistlines.
The combination of rich food and cigarettes is particularly devastating to blood flow, creating a double whammy on your sexual function. Thick, fatty blood squeezing through nicotine narrowed arteries puts an extra strain on the heart, which is why heart attacks may be more likely to strike as you enjoy a cigarette after a big rich meal.
Assume the Position
Circulatory fluid flow, of course, is responsible for more of the sexual experience than mere genital mechanics. Flushing in your cheeks comes with increased blood flow as small vessels in the skin expand in response to things like overheating, embarrassment, or arousal. In fact, rouge and lipstick may owe their sexiness in part to the fact that they mimic the facial flush that accompanies sexual excitement.
Changes in circulation can also affect the sensations you feel during some activities by modulating the amount of oxygen that gets to your brain. The lightheadedness that comes with riding a roller coaster is in part due to the forces you experience during the ride, which push blood up toward your brain or down to your feet.
People who practice erotic asphyxiation attempt to heighten their orgasmic sensations by reducing oxygen in their brain. Often they achieve the effect through partial strangulation to slow blood flow. It's a highly dangerous activity, and leads to many unfortunate deaths every year, particularly among young men.
There are, however, some much less dangerous sexual techniques that create similar sensations, because they involve positions that modify blood flow without strangulation or asphyxiation.
Your circulatory system is designed to operate best when you're standing up, lying down, or somewhere in between. Veins have tiny valves in them that work against gravity. When you stand, the valves prevent the blood in your veins from backing up into your legs, but the valves only work in one direction. If you stand on your head, you'll feel an increase in the blood pressure in your face and head as the valves in your veins become useless and gravity takes over. Although there's more blood in your upper body when you're upside down, it doesn't flow as well. Your heart will work harder to keep your blood moving, but you will probably experience some lightheadedness due to the reduction of oxygen in your brain.
There are some, rather athletic sexual positions that involve one partner essentially standing on their head to reduce blood flow in the brain, but you can get the same effect by simply hanging your head off the edge of the bed during sex. A slightly less effective method is to stand and bend deeply at the waist while your partner enters from behind or stimulates you, manually or orally. In either position, the longer you do it and the lower your head in comparison to your torso, the more intense the sensation. Of course, you may end up with a throbbing headache when it's all over.
Now you know the basic fluid physics important for sex. Whether or not you experiment with sex toys and methods for modifying the blood flow in your body, be sure to take a moment to appreciate the importance of fluid physics in your sexual activities.
The Physics of Sex will be on vacation for about two weeks, so expect our next episode, "Sex and Sensibility: The Nervous system," in the second week of January.
In the meantime, take a moment to leave your comments and questions about Physics and Sex. Or email us at firstname.lastname@example.org. If we use your comment in a future column, we'll send you a free Physics of Sex coffee cup from our CaféPress store.
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Thursday, December 21, 2006
More ways that your experiences during arousal and sex result from changes in your blood flow, and how you can use fluid physics to make it even better.
Tuesday, December 12, 2006
Much of what you experience during arousal and sex results from changes in the way your circulatory system moves your blood around. Your heart races and your cheeks flush as excitement builds. Sooner or later, if all goes well, swelling of the erectile tissue in your groin will lead to the erection of your clitoris or your penis, as the case may be. Generally, your body handles all the blood flow issues automatically. Still, a look at the physics of fluids reveals that there are many things you can do to take control of your blood flow during arousal.
Listen to the podcast with roboreaders Audrey and Paul.
Despite the fact that male and female genitalia look very different from the outside, they operate in essentially the same way, from the point of view of fluid physics. Both the penis and the clitoris are built of erectile tissue that becomes engorged with blood during sexual arousal. The chief difference between the two is that while most of the engorged portion of the penis is visible on the exterior of the male body, the exposed clitoris is only a small part of the erectile structure in a woman's genitals. In fact, women have roughly the same amount of erectile tissue as men. It's just hidden from view behind the clitoris and extends down on either side of the vaginal opening.
In either case, a physicist could describe genitals in terms of a simplified model consisting of a reservoir connected to an incoming tube, which supplies fluid, and an outgoing tube, which drains the fluid away. Your body adjusts the amount of fluid in the reservoir by regulating the relative flow, in through the source and out through the drain. It's similar to the way you can control the amount of water in your kitchen basin by turning the faucet handle.
Arteries are the blood vessel analogue of the kitchen tap. Instead of water, of course, they deliver blood provided by the pumping of your heart. They are stretchy tubes wrapped in muscle tissue. The muscles control blood flow through arteries by contracting and closing them down somewhat to slow the flow, or relaxing to let the vessels dilate and pass lots of blood.
Veins, like arteries, are also stretchy tubes. Although they don't have the sort of muscle layers that surround arteries. Instead, veins passively expand or contract as blood pressure rises or falls.
Most of the time, the muscles wrapping the genital arteries squeeze down to restrict blood flow, and the erectile tissue is relatively empty. During arousal, the arterial muscles relax to open up the tap and let lots of blood through to begin the process that leads to an erection. If there were enough blood flow, this would be sufficient to do the job without making any changes in the outward flow of blood through your veins.
In your genitals, however, the situation is a little more complicated. The erectile tissue reservoir is really more like a sponge than a kitchen basin. The large arteries that supply blood to your groin branch off into smaller and smaller vessels that are embedded in the spongy erectile tissue. Veins also fan out through the tissue, collecting blood and returning it to the large veins that lead back out.
When the arteries dilate during arousal, the swelling erectile tissue puts pressure on the veins. This forces them to collapse slightly and reduces the rate of the blood flowing out. The whole process amounts to opening the taps while simultaneously closing off the drain somewhat.
If things were to continue in this way, you would eventually have a problem as increasing pressure shut off the veins altogether and the blood flow stopped. Fortunately, there's a natural safety mechanism. Erectile tissue can only expand so far before it's fully engorged. At that point the blood still has room to force its way out through the veins.
In physics terms, the change in your erectile tissue as you become aroused is called a transient state. When you are not aroused, your genitals are in an unchanging steady state. Your genitals are also in a steady state when they are fully engorged. During a transient period, the flow of blood into your groin is different from the flow out as the erectile tissue becomes engorged. During a steady state, fluid physics requires the flow and out to be the same. In fact, the total flow of blood through your groin in either the aroused or relaxed state is just about the same, only the amount of blood loitering in the erectile reservoir is different between the two states.
It's a bit like using a damn to turn a valley into a lake. Diverting a river into the valley begins filling the reservoir. Closing the flood gates in the dam stops the flow of water out of the valley and downstream. Once the valley is filled up, the total amount of water flowing into the lake and spilling over the dam at the other end is the same that always flowed down the river. However, a lot more water is stored in the dammed up reservoir, just as more blood is stored in your erectile tissue when it's engorged.
You could rely solely on your body's natural processes to achieve a penile or clitoral erection, but many people enhance their experience with various sexual devices and techniques. In terms of the lake metaphor, most methods either widen the river flowing into the reservoir or raise the dam higher at the reservoir's outlet.
One of the most common sexual aids is the cock ring. It is a constriction placed at the base of the penis that effectively raises the dam holding more blood in your groin reservoir.
Cock rings squeeze down on the outside of a penis. They compress both arteries and veins, which causes them to collapse a little, restricting blood flow through the penis. This might lead you to wonder why they should enhance an erection. After all, if they squeeze down on both the arteries and veins you could imagine that a ring would reduce the blood flowing in as much as it reduces blood flowing out.
Fluid physics provides the solution to the cock ring puzzle. Here's how -
Whenever a liquid flows through a tube, it experiences some friction that opposes its motion. The amount of friction depends in part on how thick the fluid is. Physicists call this the viscosity. Water flows easily because its viscosity is low. Slow moving molasses is highly viscous, and blood has a viscosity somewhere between water and molasses.
When your heart pumps blood into your arteries, the resistance to the flowing blood causes the pressure to decrease the farther it moves away from your heart. (Other things affect the pressure as well, but we will worry about those later.) Narrow tubes, such as capillaries, resist flow more than wide arteries and veins.
The blood that flows through your groin passes through many tiny capillaries. If you were to measure the blood pressure on its travels from the arteries to the veins , you would find a significant pressure drop. Because the pressure in the out-going veins is so much lower than in the in-coming arteries, they are easier to pinch closed and they collapse more than arteries do under the same force.
You don't need a cock ring to test the effect. If you wrap a piece of string around one of your fingers, you will find that the finger tip swells and turns purplish-red as the string squeezes the veins down but the arteries remain more open.
Of course, a ring that's too tight could potentially shut down your veins entirely, leading to a stagnant pool of blood in the penis. This can cause permanent tissue damage as the cells run out of the oxygen that your blood provides. Most cock rings, however, include snaps or other fasteners that allow you to release them if things get out of hand.
You can also enhance an erection by pinching the base of the penis - with your thumb on the upper side, and your fingers pressing under the testicles just in front of the perineum. The pressure compresses the veins leading out of the penis just as a cock ring does. Although your hand will be in the way for some activities, and the effect will subside immediately upon releasing pressure, it can temporarily enhance girth and pleasure for a man, particularly during oral sex.
Unfortunately, the structure of a woman's genitals means that there are no feminine equivalents of cock rings, although the clamps that some people apply to their clittoris alters blood flow and often causes engorgement in a small region.
The penile pinch, however, can be adapted to women. If you spread your fingers in a V shape and place them on either side of the clitoris, you can restrict venous blood flow, and enhance clitoral size and sensation by pressing and gently squeezing your fingers together. Just as is the case with the penile pinch, this can be particularly pleasant for your female partner when you are performing oral sex.
Tensed muscles put pressure on blood vessels running through muscle tissue, much as a ring squeezes veins in a penis. When weightlifters and other athletes strain to perform an exercise, the veins near the surface of their skin stand out as the muscles squeeze the blood out of deep muscle veins. The extra engorgement of the labia, clitoris and penis just before orgasm comes in part from similar muscular tension, primarily due to straining in the abdomen, buttocks, thighs, and calves.
Vacuum pumps, including both penis pumps and clitoral pumps, also aid in erectile tissue engorgement, but they operate on an entirely different principle from cock rings. They reduce the air pressure outside of the organ rather than compressing veins inside. Normally, the atmosphere pushes on us from all directions with a force of about fifteen pounds per square inch. You don't notice the pressure because the fluids inside your body press outward and balance the air pressure on your skin. If you could selectively reduce the pressure around part of your body it would bulge outward because the pressure inside of you pushing out would no longer be balanced by the atmospheric pressure pushing back in.
A vacuum pump allows you to reduce the air pressure surrounding your penis or clitoris by surrounding it with a chamber that seals to the skin of your groin. You can then reduce the pressure by sucking the air out of the chamber with a pump.
Because the air pressure on the rest of your body remains unchanged, it's effectively the atmosphere pushing on the rest of you that forces blood into your genitals.
Unlike cock rings, which require least some arousal to function, pumps can inflate a penis or clitoris even in the absence of any natural erectile response. Once a penis is engorged with a pump, a cock ring can help maintain the erection.
Pumps can cause injuries if things are taken too far. The high pressure difference between the inside of the blood vessels and the vacuum in the pump may lead to ruptured blood vessels and permanent vein damage. They are generally safe, however, if you follow the manufacturer's instructions.
There are many other things that can affect blood flow in your genitals, including drugs, diet, and even your choice of sexual positions. We'll address several of them in next week's episode - Part two of Pumped Up and Ready for Love: Sex and Fluid Physics.
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Posted by Buzz Skyline at 4:10 PM
Saturday, December 02, 2006
Your hand slipping over your lover's back, metal pieces sliding past each other in a car engine, and even blood flowing in your blood vessels all involve friction. A little friction is a good thing in the bedroom, but a whole industry has developed to provide products to keep sexual friction under control.
Listen to the podcast with roboreaders Audrey and Paul.
The amount of friction between two surfaces depends on the roughness of the materials, their chemical composition, and the force pressing the materials together. A lubricant is any substance that reduces friction. Some lubricants are powders, such as graphite, but the lubricants involved in sex are generally liquids, gels, and creams.
Lubricants for sex, which are often called personal lubricants or simply lubes, come in a dizzying array of varieties. There are water-based, silicone-based, and petroleum-based lubes. Some lubes include fragrances; others are edible and offer an array of succulent flavors. Many lubes feature additives such as pigments and dyes, anesthetics, moisturizers, preservatives, and chemicals that warm or cool skin.
How do you know which to choose? The Physics of friction and lubrication can help you figure out the best lube for you and your partner, no matter what activity you have in mind.
The human body is a complex machine, with hundreds of moving parts. Like all machines, it needs lubricants. Elbows, knees, ankles and the rest of your joints would eventually grind themselves to dust if they lacked lubrication. Tears lubricate your eyeballs, saliva lubricates your mouth and throat, and your skin is constantly moistened with sweat and oils to keep it supple as millions of skin cells jostle against each other.
The natural lubricants most important for sex are saliva, vaginal fluids, and male pre-ejaculate.
Saliva consists primarily of water and mucus. Mucus is made of long proteins called mucins, which are coated in compounds related to sugars. The mucins bind to water to make saliva slippery.
The slipperiness of saliva mucus makes it a convenient lubricant for oral sex, hand jobs, and anal sex. Unfortunately the high proportion of water in saliva makes it dry out quickly as the water evaporates.
Vaginal fluids are also packed with mucins to ease penetration and protect vaginal linings from germs. In addition, vaginal fluids include various acids to provide the right chemical environment for sperm, and sugars that nourish sperm swimming through the vaginal fluid toward the ovaries.
Women produce vaginal fluids when they become sexually aroused. The amount varies depending on their age, health, and the timing of their menstrual cycle. Smoking just before sex can reduce fluid production by diminishing blood flow to the vaginal lining. Antihistamines and other drugs can reduce natural lubrication as well. All women need a little lubrication help from time to time, and even the most abundantly lubricating women may need to supplement their vaginal fluid with saliva or artificial lubricants - for extended love sessions.
Men produce some lubricant as well. The Cowper's gland near the prostate secretes a small amount of slippery fluid commonly called pre-ejaculate or pre-cum. Some sex experts believe it helps to lubricate the head of the penis before penetrating a woman's vagina, but most men only produce a few drops and it is often ill timed for insertion. It's more likely that the Cowper's fluid prepares the urethra for the passage of sperm by adjusting acidity, clearing out any traces of urine, and lining the urethra with a slippery, sugar-rich energy source to get the sperm swimming.
There is some lubrication in the anus, but nowhere near enough for most anal sex activities. Generally, you're going to need to bring along some artificial lube for anal play.
Pure water is an excellent lubricant - sometimes. If you've ever slipped on a wet tile floor, or nearly broken your neck stepping into a tub, you know how slick water can be. Many lubes consist primarily of water.
Unfortunately, water can sometimes dramatically increase friction instead. For example, people may lick a finger to add friction before turning a page in a magazine. Slightly moistening your hands will give you a better grip when trying to take the lid off of a jar, provided you don't make your hands too wet.
When you step into a tub, you usually experience a little of both water's lubrication and its tackiness. After initially sliding over the bottom of a filled tub, your feet will suddenly gain traction, giving you much more grip than you would have had if the tub were totally dry.
The two radically different properties of water stem from the attraction that water molecules have for each other and for some other materials. Materials that attract water are called hydrophilic, or water loving, and materials that are not attracted to water are hydrophobic, or water hating. Water beads up on a freshly polished car because the polish is hydrophobic and repels water. Rain droplets spread out on a car that needs waxing because the old oxidized polish is hydrophilic and attracts water.
Water is a liquid because the attraction between the molecules is too weak to turn it into a solid and they slip and slide over each other. It's strong enough, however, to bind water into small droplets when it falls as rain or runs down a window pane.
When your foot slips as you're stepping into a tub, it's because there's a thick layer of water between your foot and the porcelain. The mild attraction between the water molecules makes them act a bit like tiny marbles, with very low friction.
As you put weight on your foot, you squeeze most of the water out of the way, until there is a very thin layer between your skin and the tub. In some places, the layer is only a few molecules thick. Because your skin and the surface of the tub are slightly water-loving, the molecules are attracted to both. The slight attraction the water molecules have for the tub and your foot combine to give you traction.
It's because of the dual lubricating and adhesive properties of water that making love in a pool tub may seem like a good idea, but rarely turns out well. Your skin slides easily over your lover's skin, as long as the contact is light and there is a lot of water between the two of you. Once your skin presses together, you lose water's lubricating properties and the adhesion takes over, which can make vaginal and anal penetration particularly rough experiences.
But it's possible to exploit the forces between molecules to ensure that water stays slippery. That's what's going on in water-based lubes. These types of lubricants work in one of two ways; either by ensuring that the water molecules clump together so that you are less likely to get a thin adhesive layer, or by reducing the water molecules' attraction to each other and other hydrophilic materials. Some lubes have ingredients that do both.
Mixing in glycerin is one way to make water molecules clump together and form a good liquid lubricant. Glycerin is a small molecule that's hydrophilic in two places. As a result, water can attach to each side of a glycerin molecule. Another glycerin then attaches to the water, and so on. Eventually long molecular strings will form. If you could see the mixture through a powerful enough microscope, you would see that the strings tangle up like spaghetti. They slip and slide, like a plate of heavily buttered pasta noodles. To the naked eye, the result is a clear liquid that is much thicker and slicker than water.
The binding between the glycerin and water is weak enough that water molecules can break free of the mixture. They may then evaporate or get absorbed into your skin, which means that lubes relying on glycerin to hold water molecules together will slowly dry out. The glycerin molecules that have lost their water will be mildly attracted to your skin, which makes the lube get sticky as it dries. Adding a little water will restore the glycerin lube's slipperiness.
Glycerin is related to the sugar glucose. If you taste some, you will see that glycerin lubes are sweet. Like sugar, glycerin is a good energy source and sometimes serves as a nutrient for microbes. Women may find that glycerin lubes foster yeast infections. If you or your lover suffers from frequent vaginal infections, look for glycerin-free water-based lubes. There are several other molecules that can hold water together as glycerin does, without feeding populations of vaginal bacteria and fungi.
Another way to make water stay slippery is by mixing it in a gel. Gel lubricants get their jelly-like consistency from long molecules of protein rather than short glycerin molecules. The proteins in gels have many places along their lengths that attract water. Chemical treatments or heat cause the long molecules to crosslink, which means that they connect to each other in some places.
It's like tying pieces of string together at random places to make a loose, three-dimensional web. Water molecules get trapped in the web at the hydrophilic points along the protein molecules. Food gelatins, like Jello, trap water the same way.
The more places that the molecules are connected in a crosslinked gel, the more rigid and jelly-like the gel will be. Like glycerin lubes, water-based gels may dry out in time. Because they're more complex than liquids, with water trapped in a net of crosslinked proteins, you cannot rejuvenate them as well by simply adding water. It's better to add fresh gel if it gets too dry.
Some lubes rely on chemicals called surfactants that reduce the attraction between water molecules. Instead of ensuring that there is a thick layer of water between your skin and your lover's skin, surfactants make thin layers of water less adhesive. They're generally medium length molecules, longer than glycerin and shorter than most proteins.
Surfactant molecules each have a hydrophilic connection at one end. Surfactant molecules link up with water, effectively making the molecules larger and more bulky. This keeps them farther apart. The attraction that water molecules feel for each other gets much weaker if they are even slightly separated. The reduced attraction also reduces the adhesion of the surfactant-water mix.
Many gel and liquid lubes include surfactants to make the water in them ultra slippery.
Water-based lubes are safe for use with latex condoms and diaphragms, as well as all sex toys. They wash off easily with nothing more than warm water. Of course, that means they rinse away too readily for making love in the bath.
Some lubes don't include any water at all. Lubricants based on vegetable oils and petroleum products are often very slick and long lasting. Vegetable oils common in lubes include olive, sesame, and palm oils, to name just a few of the many possible varieties. Most petroleum-based lubes are varying grades of petroleum jelly, with Vaseline being the best known brand.
Both plant oils and petroleum lubricants are made of hydrocarbon chains, long strings of carbon atoms with hydrogen atoms attached to the sides. The texture of petroleum-based lubes is determined primarily by the lengths of the carbon chains.
Molecules made of chains ten to fifteen carbon atoms long form mineral oils and light watery lubricants. Longer chains are heavier and clump together to form jellies like Vaseline. Still longer chains result in paraffin wax.
Vegetable oils are a little more complicated. They're also made of hydrocarbon chains. However, they typically consist of multiple chains linked together by a glycerin molecule. Like petroleum products, heavier oils usually are made of longer chains. In addition, light, watery oils can be made to solidify by changing the number of hydrogen atoms attached to the chains, through a process known as hydrogenation. Margarine and shortening are made from light vegetable oils that have been hydrogenated.
Hydrocarbon chains that make up oils are highly hydrophobic. If you've ever made salad dressing with oil and vinegar (which is mostly water) you've seen how hard it is to mix the two.
The molecules in oils and petroleum products don't attract each other or your skin very strongly, which is why they're slippery.
You might think oils and petroleum jellies would be easier to clean off of your body if they're not as strongly attracted to your skin as is water, but that's clearly not the case. One reason it's harder to remove hydrocarbon lubes is that their large molecules don't evaporate very well. If you get water on your skin, just wait a while and it'll dry all by itself. Oils and petroleum products will stick around for ages with little or no sign of evaporation, which is good for long lovemaking sessions, but not so great for the post-coital clean up.
The fact that the lubes are hydrophobic also means that you cannot simply rinse them off with water. To remove the lubes you'll need to wash with soap.
Many men prefer oils and petroleum products over water-based lubes for masturbation. Some people feel that they are better suited for anal sex because the petroleum jellies in particular are heavier and last longer. Hydrophobic vegetable oils and petroleum lubes work well in the tub or pool because they won't rinse away.
Unfortunately, all oils and petroleum products dissolve latex, and should never be used in combination with latex condoms, diaphragms, and latex sex toys. It's also generally a bad idea to use them for vaginal sex because the soap necessary to clean the lubes away removes the protective vaginal mucous as well. This leaves the delicate membranes open to infection.
Some of the newest lubes on the market are silicones. Silicone molecules have essentially the same structure as petroleum except that the long carbon chains are replaced by chains of alternating silicon and oxygen atoms. Like oils and petroleum products they are hydrophobic, long lasting lubes. They're just as slippery as oils but will not dissolve latex. They wash off with soapy water, making them less than ideal as vaginal lubricants but much better alternatives for anal sex when latex condoms are involved.
There are also water-based lubes that replace glycerin with dimethicone, a silicone molecule that can link water molecules into long slippery just as glycerin does. They're good lubrication alternatives for vaginal intercourse if you want to avoid glycerin. Like all water-based lubes, those that include dimethicone wash off easily with water and are no good in the tub or pool. They're safe to use in conjunction with latex products, but will still damage silicone sex toys.
Emulsions and Creams
Although water and oil don't mix as a rule, there's a way to almost make them get together, which leads to another type of lubricant - emulsions. Surfactants do the trick. You've already seen that surfactant molecules that are hydrophilic on one end can make water more slippery. If the other end of the surfactant molecule is hydrophobic, then it can help get water and oil molecules close together, even if they don't actually mix.
Creams and many creamy lotions are emulsions. If you mix a surfactant in water and then add oil, the surfactant molecules will surround oil droplets with their water-hating ends pointed in, toward the oil, and their water-loving ends pointed outward. The surfactants create tiny balloons of oil in the water called micelles. The oil and water still don't actually mix, but the micelles act like large dissolved particles in the water. Mayonnaise is a common emulsion of vegetable oil and water, with a bit of egg white mixed in to act as an emulsifying surfactant.
All emulsions, including most lubes advertised as creams or lotions, have either oil or silicone mixed with water. Be sure to check the ingredients before using an emulsion in combination with latex or silicone prophylactics and toys; all the same precautions apply for emulsions as do for simple oils, petroleum jellies, and silicones.
To summarize. . .
- Water-based lubes are usually safe with latex condoms as well as silicone and rubber, provided they don't have any oils or silicone surfactants. (Check the label to be certain.) They're also easy to clean up.
- Oil and petroleum lubes are super slick and long lasting, but destroy latex condoms and toys, and are hard to wash off.
- And finally, silicone lubes are also very slick and long lasting, but don't harm latex products. Although they can be as tough to clean as oils, and will damage silicone toys
The options for sexual lubes are vast. So which is best for you? It's hard to say, but I can't think of a better way to answer the question than buying several types and spending a night trying them out. It'll be a slippery, sloppy session of sexual fun, and in the end I hope you'll have a new appreciation for the physics of friction and lubrication.
Next time . . . Pumped Up and Ready for Love: Fluid Physics and Sex
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Posted by Buzz Skyline at 6:16 AM