yes, and the speed depends on the weight of the object
It means that the maximum force of friction is greater than the weight of the object.
No, refractive index(RI) of air is more than that of vaccum. Infact RI of any medium is more than vaccum. RI of vaccum is 1. RI of any medium = c/v where c is speed of light in vaccum v is speed if light in medium whose RI with respect to vaccum is found. It is known that speed of light is maximum in vaccum so v < c, and RI > 1.
Static Friction, since it is limited to the weight and surface area of the object in question.
No the weight of an object has nothing to do with friction. Weight is the gravitational attraction of the object and the planet.
vaccum
yes, and the speed depends on the weight of the object
This Bissell vaccum weighs 28 pounds when it comes to the total weight of the entire vaccum.
Because there's no influence from buoyancy in vacuum.
[object Object]
It means that the maximum force of friction is greater than the weight of the object.
No. In a vacuum, the weight of an object will be the product their mass, times the gravity. In other words, objects with different masses will have different weights.
No, refractive index(RI) of air is more than that of vaccum. Infact RI of any medium is more than vaccum. RI of vaccum is 1. RI of any medium = c/v where c is speed of light in vaccum v is speed if light in medium whose RI with respect to vaccum is found. It is known that speed of light is maximum in vaccum so v < c, and RI > 1.
There is a maximum weight limit for parachuting. The maximum weight limit for tandem students is 220 lbs., and the maximum weight limit for AFF students is 240 lbs.
Static Friction, since it is limited to the weight and surface area of the object in question.
There is no maximum weight that a planet can get to. A planet's weight depends on its mass and the gravity it has.
No the weight of an object has nothing to do with friction. Weight is the gravitational attraction of the object and the planet.