try to make yourself get longer and harder
if wavelength of light is of order of radii of earth then why it will penetrate deeper in sea?
The 830nm laser penetrates deeper into tissues compared to the 630nm laser. This is due to the longer wavelength of 830nm, which allows it to penetrate through skin and reach deeper layers of tissue, making it more effective for treatments that require deeper penetration, such as pain management and tissue repair.
penetrate deeper faster and harder and good foreplay works everytime
Ultrasonic units can penetrate solids, liquids, and gases, depending on the frequency used. Higher frequency ultrasonic waves penetrate shallow tissues or liquids, while lower frequency waves can penetrate deeper tissues or solids.
His "golf club" (innuendo! ;) )
Perhaps you married a man?
Yes, photons can penetrate deep tissue depending on their energy. Low-energy photons are more likely to be absorbed near the surface, while higher-energy photons can penetrate deeper into tissue. This property is used in various medical imaging and treatment techniques.
Beta radiation can penetrate human tissues to a depth of a few millimeters to a few centimeters, depending on the energy of the beta particles. Higher energy beta particles can penetrate deeper into tissues, potentially causing damage to cells and DNA along their path.
just alot of pressure but it would be pitch black down there that's why there are some fish with lights on them. !!!! watch finding nemo It gets worse, and becomes darker because less sunlight can penetrate the deeper you go.
Electromagnetic pulses can penetrate soil to a depth of several feet, depending on various factors such as the pulse strength, soil type, and moisture content. Deeper penetration is possible in loose, dry soil compared to wet or dense soil.
Yes, longer wavelengths like radio waves penetrate deeper into materials compared to shorter wavelengths like visible light. This is why radio waves can travel through walls and other obstacles, while visible light cannot.
The Earth's crust is made up of solid rocks that can be extremely thick and strong, making it difficult for scientists to penetrate it with current technology. Additionally, the high temperatures and pressures at deeper levels of the crust pose significant challenges for drilling and exploration. Overall, the complexity and depth of the Earth's crust make it a challenging barrier to penetrate.