A force was applied to a 50 kg wheel as shown in the figure. If the wheel starts to rest without slipping Determine the angular acceleration ε, the wheel pressure on the ground N and the rotational speed of the wheel n after 10 revolutions, if the rolling friction coefficient f = 0.1 mm. Take the radius of inertia of the wheel equal to 0.3 m.

A force was applied to a 50 kg wheel as shown in the figure. If the wheel starts to rest without slipping Determine the angular acceleration ε, the wheel pressure on the ground N and the rotational speed of the wheel n after 10 revolutions, if the rolling friction coefficient f = 0.1 mm. Take the radius of inertia of the wheel equal to 0.3 m.

Automotive Technology: A Systems Approach (MindTap Course List)

6th Edition

ISBN:9781133612315

Author:Jack Erjavec, Rob Thompson

Publisher:Jack Erjavec, Rob Thompson

Chapter3: Basic Theories And Math

Section: Chapter Questions

Problem 12RQ: Work is calculated by multiplying by.

See similar textbooks

Similar questions

Convert 22C to Fahrenheit.
It says my answer is partially correct. 264kPa is correct but it says 11.3m is not correct. What is the correct way to calculate this value?
6) A tower used in a wind turbine system had a stiffness of 790N/m after displacing 10cm. Find the weight(in gram) that was connected to this tower. Assume g.- 10.174 m s2
Determine Force work done 722J Displacement = Rom.
Sy=370 MPa
Perform unit conversion. 3.5 L to qt
1. Fill in the missing spaces and determine the direction of from in Pipe D. C Pipe A B с D E F G Flow (ft³/sec)) 100 60 20 (D Velocity (ft/sec) 15 20 Area (ft²) 20 6 10 15
Q1: If the power generated by a wind system at a height of 50 m is equal to 30 kw at a wind speed of m/s 4? Find the height of the system if the generated power increases by one and a half times when the wind speed is twice as high as the first case.
ANSWER: h0.26916 m Show the complete solution.
12 МPа 46 MPа 19 MPа
P(kN) = 91 RA (cm) = 949 please put the unit for the final answer thanks.
A wind generator is installed. It is determined that the capacity factor of the installation is 29% over the course of a 90-day period. In that period, it produced 1566 MWh. What is the size of the installation (MW)?