1. The frame shown in Fig. P-348 is supported in pivots at A and B. Each member weighs 5 kN/m. Compute the horizontal reaction at A and the horizontal and vertical components of the reaction at B. A 1.5 m 4 m D 2 m C E 3 m MATHalino.com 200 kN F 1.5 m B MATHallno.com

1. The frame shown in Fig. P-348 is supported in pivots at A and B. Each member weighs 5 kN/m. Compute the horizontal reaction at A and the horizontal and vertical components of the reaction at B. A 1.5 m 4 m D 2 m C E 3 m MATHalino.com 200 kN F 1.5 m B MATHallno.com

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Concept explainers

Temperature Difference and Heat Transfer

Whenever there is a flow of heat flux resulting from a temperature gradient within the material or between two materials, there is heat transfer. Heat transfer primarily arises due to temperature differences between two bodies or within bodies. The term temperature gradient denotes temperature differences or variation of temperature due to change in some quantity. The fundamental use of the concept of temperature is found in the zeroth law of thermodynamics.

Question

Answer no. 1 only

2. A wheel of 10-in radius carries a load of 1000
Ib, as shown in Fig. P-324.
(a) Determine the horizontal force P applied at the
center which is necessary to start the wheel over
a 5-in. block. Also find the reaction at the block.
(b) If the force P may be inclined at any angle with
the horizontal, determine the minimum value of P
to start the wheel over the block; the angle P
makes with the horizontal; and the reaction at the
block.
10"
1000 lb
5"
MATHalino.com
Figure P-324
P.

1. The frame shown in Fig. P-348 is supported in
pivots at A and B. Each member weighs 5 kN/m.
Compute the horizontal reaction at A and the
horizontal and vertical components of the
reaction at B.
1.5 m
4 m
O 2 m
3 m
MATHalino.com
200 kN
F
1.5 m
Figure P-348
2. A wheel of 10-in radius carries a load of 1000
Ib, as shown in Fig. P-324.
(a) Determine the horizontal force P applied at the
center which is necessary to start the wheel over
a 5-in. block. Also find the reaction at the block.
(b) If the force P may be inclined at any angle with
the horizontal, determine the minimum value of P
to start the wheel over the block; the angle P
makes with the horizontal; and the reaction at the
block.

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