yes it actually does because glycerin is thick and tough and the glycerin evaporate the water slower making the bubble last longer. when they bubble is in high temperature in a closed space or room and if the bubbles are also in a jar, they can and they will last much longer.
The size of tablets can affect the amount of bubbles in blobs in a bottle. Larger tablets may produce more bubbles as they release more gas into the liquid compared to smaller tablets. Additionally, the surface area of the tablet exposed to the liquid can also influence bubble formation.
No, in most cases both big and small bubbles fall at the same rate because they experience the same drag force from the surrounding air. The size of the bubble does not significantly affect how fast it falls.
No, the size of the fizzy tablet does not significantly affect the number of blobs created in a homemade lava lamp. The reaction between the tablet and the liquid produces the gas bubbles responsible for creating the blobs, and this reaction is fairly consistent regardless of the tablet size.
Bubble baths that contain ingredients like sodium lauryl sulfate or disodium laureth sulfosuccinate tend to produce more bubbles. Look for products labeled as "high-foaming" or "extra bubbles" for a more bubbly experience. Experimenting with different brands and formulations can help you find the bubble bath that creates the most bubbles for you.
Yes, the amount of baking soda used in a baking soda and vinegar reaction will affect the size and rate of gas production, which will, in turn, affect how much the balloon inflates. Increasing the amount of baking soda will generate more gas and result in a larger balloon inflation, while using less baking soda will lead to a smaller balloon inflation.
The size of tablets can affect the amount of bubbles in blobs in a bottle. Larger tablets may produce more bubbles as they release more gas into the liquid compared to smaller tablets. Additionally, the surface area of the tablet exposed to the liquid can also influence bubble formation.
Glycerin is a type of sugar and makes particles expand more with oxygen, making a bigger bubbleANS2:Glycerin added to the soap solution slows evaporation so the soap film stays intact longer. That allows you to fill it with more air before the bubble pops.
Assuming you're discussing soap-bubbles... The size would be dependent on the amount of bubble solution, and the amount of air inside the bubble. The method for creating the bubble is rarely completely uniform, yielding bubbles of different sizes. The same would be true of any detergent bubbles.
Yes, crystal glass can have bubbles in it. These bubbles are usually a result of the glass manufacturing process and can vary in size from tiny air pockets to larger bubbles that may affect the clarity of the glass.
Yes, the size of a bubble can affect its shape. Smaller bubbles tend to be more spherical, while larger bubbles may deform due to gravity and surface tension forces, appearing more elliptical or irregular in shape.
The size of a sponge does affect the amount of water absorbed. The bigger the sponge the more water absorbed.
Bubbles are formed when a thin film of soapy water traps air inside. The size and longevity of bubbles are determined by factors such as the thickness of the soap film, the amount of air trapped inside, and environmental conditions like humidity and wind.
No, the size of an object does not affect the amount of matter it has. The amount of matter in an object is determined by its mass, which remains the same regardless of its size.
No.
The size and affect of a thunderstorm is variable, depending on the amount of static electricity that has built up.
I think the amount of water does affect the size off a wave and many other things such as weather,things in the water,and the conditions at the bottom of the body of water.
Balls in ya mouth