Author: Anonymous

As a real estate agent, you offer your clients your time, energy, knowledge of real estate and knowledge of real estate transfer. This knowledge includes

A patient explains to the physical therapist that their metoprolol was increased at their last cardiology appointment. They have been reluctant to take it every day because they like to walk for exercise and they struggle to walk at the pace they are used to. Which of the following side effects is likely impacting their activity tolerance?

A patient with an acute exacerbation of idiopathic pulmonary fibrosis (IPF) was discharged from the ICU and is now on the step-down unit. What of the following signs or symptoms does the physical therapist anticipate, given the patient’s diagnosis?

The notched bar is subjected to a bending moment of M = 400 N·m. The major bar width is D = 102 mm, the minor bar width at the notches is d = 96 mm, and the radius of each notch is r = 3 mm. If the maximum bending stress in the bar must not exceed 73 MPa, determine the minimum required bar thickness using Neuber’s nomograph (Table 14.3 and Figure 14.10).

The beam has a rectangular cross section with D = 55 mm, d = 50 mm, r = 10 mm, and a thickness of 6 mm. If M = 23.8 N·m, determine the maximum normal stress at the section through the base of the fillets using Figures 14.24 and 25.

The tension member has a rectangular cross section with D = 80 mm, d = 40 mm, r = 20 mm, and a thickness of 3 mm. If P = 3.9 kN, determine the maximum normal stress at the section through the base of the fillets using Figure 14.16.

The tension member has a rectangular cross section with D = 42 mm, d = 30 mm, r = 6 mm, and a thickness of 3 mm. If P = 4.4 kN, determine the maximum normal stress at the section through the base of the fillets using Figure 14.16.

The beam has a rectangular cross section with D = 62.5 mm, d = 50 mm, r = 10 mm, and a thickness of 9 mm. If M = 15 N·m, determine the maximum normal stress at the section through the base of the fillets using Figures 14.24 and 25.

The beam has a rectangular cross section with D = 62.5 mm, d = 50 mm, r = 30 mm, and a thickness of 8 mm. If M = 20.6 N·m, determine the maximum normal stress at the section through the base of the fillets using Figures 14.24 and 25.

The tension member has a rectangular cross section with D = 88 mm, d = 40 mm, r = 24 mm, and a thickness of 4 mm. If P = 4.2 kN, determine the maximum normal stress at the section through the base of the fillets using Figure 14.16.