1.3 Determine current flow through an element if the charge flow is given in the form of an equation
1-2 Determine the current flowing through an element if the charge flow is given by...
1.16 Fig shows the current through and thevoltage across an element. Sketch and find total energy.
2.16 Determine Vo in the circuit in Fig. 2.80.
2.10 Determine i1 and i2 in the circuit of Fig. 2.74.
1.9 The current of element is shown. Find the total charge that passed through element at: t=1,3,5s
2.15 Calculate v and ix in the circuit of Fig. 2.79.
3.52 Use mesh analysis to find i1, i2, and i3 in the circuit of Fig. 3.97.
2.26 For the circuit in Fig io=3A. Calculate ix and the total power absorbed by the entire circuit.
8-17 Determine the μ between the ground and ladder with given Θ that is resting on a smooth wall.
2.13 For the circuit in Fig. 2.77, use KCL to find the branch currents I1 to I4.
1.6 The charge entering a certain element is shown in. Find the current at: t=1 ms, t=6 ms, t=10 ms
2.42 Reduce each of the circuits in Fig. 2.106 to a single resistor at terminals a-b.
3.62 Find the mesh currents i1, i2, and i3 in the network of Fig. 3.106.
2.38 Find Req and io in the circuit of Fig. 2.102.
3.60 Calculate the power dissipated in each resistor in the circuit of Fig. 3.104.
2.9 Find i1, i2, and i3 in Fig. 2.73.
1.7 The charge flowing in a wire is plotted in Fig. 1.24. Sketch the corresponding current.
3.49 Find vo and io in the circuit of Fig. 3.94.
5-7 An AISI 1018 steel has a yield strength, Sy = 295 MPa. Using the distortion-energy theory for...
1.8 The current flowing past a point in a device. Calculate the total charge through the point.
2.4 Calculate current i in Fig. 2.68 when the switch is in position 1 and 2
2.31 For the circuit in Fig. 2.95, determine i1 to i5.
1-20 Find Vo and the power absorbed by each element in the circuit of Figure.
2.14 Given the circuit in Fig. 2.78, use KVL to find the branch voltages V1 to V4.
6-3 Determine the force in members of the truss (state tension or compression for each member).
2.7 Determine the number of branches and nodes in thecircuit of Fig. 2.71.
5-71 Determine the components of reaction at the B&S joint and tensions of cable supporting a rod.
3.54 Find the mesh currents i1, i2, and i3 in the circuit in Fig. 3.99.
2.34 Using series/parallel resistance combination, find the equivalent resistance seen by the source
2.11 In the circuit of Fig. 2.75, calculate V1 and V2.
3.38 Apply mesh analysis to the circuit in Fig. 3.85 and obtain Io.
6-3 A steel rotating-beam test specimen has an ultimate strength of 120 kpsi. Estimate the life...
3.37 Solve Prob. 3.8 using mesh analysis.
3.56 (7 edition) Determine v1 and v2 in the circuit of Fig. 3.101
6-37 Determine the force in members of the truss and state if they are in tension or compression.
3.45 Find current i in the circuit of Fig. 3.91.
3.51 Apply mesh analysis to find vo in the circuit of Fig. 3.96.
1-10 A lightning with 10 kA strikes an object for 15 μs. How much charge is deposited on the object?
1-1 How much charge is represented by these number of electrons?
10-5 Determine the moment of inertia for the shaded area about the x-axis.
9-1 Locate the center of mass of the homogeneous rod bent into the shape of a circular arc.
8-63 Determine the minimum applied force P so that the wedge will move to the right with given k.
1-5 Determine the total charge transferred over the time interval of 0 ≤ t ≤ 10s when i( t) = 1/2tA.
8-16 Determine the inclination Θ of the ladder with given μ that is resting on a smooth wall.
9-26 Locate the centroid x of the shaded area (y=1/4x^2).
5-2 Repeat Problem 5-1 with the following principal stresses obtained from Equation (3-13):
10-6 Determine the moment of inertia for the shaded area about the y-axis.
5-68 Determine the components of reaction at hinges A and B on a door.
9-27 Locate the centroid ȳ of the shaded area (y=1/4x^2).
3.44 (7 edition) Use mesh analysis to obtain io in the circuit of Fig. 3.90.
2.12 In the circuit in Fig. 2.76, obtain v1, v2, and v3.
1.12 If the current flowing through an element is given by i(t) Plot the charge over 0 - t - 20 s.
1.14 Voltage v(t) across a device & the current i(t) through it are calculate total charge and power
Prob. 4.5-4. The aluminum-alloy shaft AC in Fig. P4.5-4 (G = 26 GPa) has an 800-mm-long solid...
6-48 Determine the forces in members of the truss, and state if they are in tension or compression.
9-2 Determine the location (x, y) of the centroid of the wire.
6-38 Determine the force in members of the truss, state if they are in tension or compression.
9-75 Locate the center of mass (x, y, z) of the homogeneous block assembly.
5-67 Determine the tension of the cables that is supporting an uniform concrete slab.
