![Table 1 from Friction tests on polyurethane and concrete. Rolling friction tests and sliding friction tests on anti-abrasion polyurethane, anti-seepage polyurethane and concrete. | Semantic Scholar Table 1 from Friction tests on polyurethane and concrete. Rolling friction tests and sliding friction tests on anti-abrasion polyurethane, anti-seepage polyurethane and concrete. | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/2b6dbb9a4da7d26fb01b0b1b7295131472f8fd15/19-Table1-1.png)
Table 1 from Friction tests on polyurethane and concrete. Rolling friction tests and sliding friction tests on anti-abrasion polyurethane, anti-seepage polyurethane and concrete. | Semantic Scholar
![Table 13 from Friction tests on polyurethane and concrete. Rolling friction tests and sliding friction tests on anti-abrasion polyurethane, anti-seepage polyurethane and concrete. | Semantic Scholar Table 13 from Friction tests on polyurethane and concrete. Rolling friction tests and sliding friction tests on anti-abrasion polyurethane, anti-seepage polyurethane and concrete. | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/2b6dbb9a4da7d26fb01b0b1b7295131472f8fd15/48-Table3-1.png)
Table 13 from Friction tests on polyurethane and concrete. Rolling friction tests and sliding friction tests on anti-abrasion polyurethane, anti-seepage polyurethane and concrete. | Semantic Scholar
![Determination of the coefficients of restitution, static and rolling friction of Eskom-grade coal for discrete element modelling Determination of the coefficients of restitution, static and rolling friction of Eskom-grade coal for discrete element modelling](http://www.scielo.org.za/img/revistas/jsaimm/v113n4/11t01.jpg)
Determination of the coefficients of restitution, static and rolling friction of Eskom-grade coal for discrete element modelling
![A 50 kg rubber-wheeled cart rolls down a 71° concrete incline. The coefficient of rolling friction between rubber and concrete is r = 0.02. What is the cart's acceleration if rolling friction A 50 kg rubber-wheeled cart rolls down a 71° concrete incline. The coefficient of rolling friction between rubber and concrete is r = 0.02. What is the cart's acceleration if rolling friction](https://homework.study.com/cimages/multimages/16/annotation_2021-03-04_2109197153396475576948090.png)
A 50 kg rubber-wheeled cart rolls down a 71° concrete incline. The coefficient of rolling friction between rubber and concrete is r = 0.02. What is the cart's acceleration if rolling friction
![A rubber-wheeled 50-kg cart rolls down a 15-degree concrete incline. The coefficient of rolling friction between rubber and concrete is 0.02. What is the cart's acceleration if rolling friction is included? A rubber-wheeled 50-kg cart rolls down a 15-degree concrete incline. The coefficient of rolling friction between rubber and concrete is 0.02. What is the cart's acceleration if rolling friction is included?](https://homework.study.com/cimages/multimages/16/annotation_2021-03-04_1117263082431034559409975.png)
A rubber-wheeled 50-kg cart rolls down a 15-degree concrete incline. The coefficient of rolling friction between rubber and concrete is 0.02. What is the cart's acceleration if rolling friction is included?
![SOLVED: A cart on wheels weighs 2400 N. The coefficient of rolling friction between the wheels and floor is 0.16. What force is needed to keep the cart rolling uniformly? SOLVED: A cart on wheels weighs 2400 N. The coefficient of rolling friction between the wheels and floor is 0.16. What force is needed to keep the cart rolling uniformly?](https://cdn.numerade.com/previews/2f5326c7-2e87-4c98-8914-d547aa33d634_large.jpg)