It wouldnt be a slide. It would be a larger chair depending on the moleculer compounds involed in the changing plastyic compound. If it is a metal the mole ratio will cause the slide to become abnormally hard. 8====D
When skiing, you need low friction to glide smoothly over the snow. High friction would cause you to feel resistance and make it difficult to slide across the surface. A low friction surface allows you to maintain control and move efficiently.
Low friction is made when you rub smooth surfaces together, and they slide easily. For example, a melting ice cube would easily slide across a glass table because there is low friction. In contrast, high friction is when there is high resisting force. For example, if you rub velcro across a rug, there would be high friction, and it would be more difficult than sliding the ice across the glass table.
An example of negative friction is when a sled on a perfectly icy slope has too little friction to slow it down, causing it to slide uncontrollably at high speeds.
Shoelaces generally have low friction, making them easier to tie and untie. This low friction allows them to slide through the eyelets of shoes smoothly without getting stuck.
Surfaces such as carpet, rubber, sandpaper, and rough concrete tend to produce high friction due to their rough textures that create resistance when objects slide or move across them.
If a slide had high friction, it would not function well as a slide. Things would either slow down during their descent or would stop completely (if the coefficient of friction were sufficiently large).You would either stop in mid slide, burn your bottom,or shred the seat of your pants.
Sandpaper is designed to be a high-friction material. High friction on a slide means less downward force, which means less acceleration and less velocity.
they would suddenly shoot forward at extremly high speeds.
When skiing, you need low friction to glide smoothly over the snow. High friction would cause you to feel resistance and make it difficult to slide across the surface. A low friction surface allows you to maintain control and move efficiently.
Low friction is made when you rub smooth surfaces together, and they slide easily. For example, a melting ice cube would easily slide across a glass table because there is low friction. In contrast, high friction is when there is high resisting force. For example, if you rub velcro across a rug, there would be high friction, and it would be more difficult than sliding the ice across the glass table.
Low friction is slippery high friction has good traction. In the sport of Curling (gliding those heavy granite stones on ice towards a bullseye) one shoe has low friction (to slide on the ice) the other has high friction (to propel the player).
An example of negative friction is when a sled on a perfectly icy slope has too little friction to slow it down, causing it to slide uncontrollably at high speeds.
Shoelaces generally have low friction, making them easier to tie and untie. This low friction allows them to slide through the eyelets of shoes smoothly without getting stuck.
The answer depends on the incline (slope) of the slide. And, if you want a more realistic answer, a measure of the friction between the child and the slide.
Surfaces such as carpet, rubber, sandpaper, and rough concrete tend to produce high friction due to their rough textures that create resistance when objects slide or move across them.
Well, honey, high friction is about as useful as a screen door on a submarine when you're trying to slide into home base during a baseball game. It's also about as helpful as a chocolate teapot when you're trying to cool down your tea. In simpler terms, high friction is a real pain in the rear when you're trying to zip around on an ice rink or slide down a playground slide.
Two rough surfaces with high friction coefficients would have the highest coefficient of friction. For example, rubber on concrete or sandpaper on wood would typically result in a high coefficient of friction due to the roughness of the surfaces.