Ashok Sapkota

Ashok Sapkota is a dedicated engineer currently serving at the Department of Water Resources and Irrigation in Nepal. With a strong educational background, Ashok completed his Bachelor's degree from the Institute of Engineering (IOE), Pulchowk Campus, Nepal. He is currently pursuing a Master's degree in Construction Management at the same prestigious institution.

Ashok's professional expertise lies in water resources and irrigation engineering, where he applies his knowledge to contribute to Nepal's water management and agricultural development.

Beyond his professional commitments, Ashok is passionate about sharing his engineering insights. He regularly writes blogs on various engineering topics, aiming to educate and inspire others in the field.

With a combination of practical experience, ongoing advanced education, and a drive to share knowledge, Ashok Sapkota represents the new generation of engineers working to shape Nepal's future.

Three forces keep a particle in equilibrium. One acts towards east, another towards north-west and the third towards south. If the first be 5 N, find the other two

Three forces keep a particle in equilibrium. One acts towards east, another towards north-west and the third towards south. If the first force is 5 N, find the other two.

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Problem Statement Three forces keep a particle in equilibrium. One acts towards east, another towards north-west and the third towards […]

Three forces keep a particle in equilibrium. One acts towards east, another towards north-west and the third towards south. If the first force is 5 N, find the other two. Read More »

A wheel has five equally spaced radial spokes, all in tension. If the tensions of three consecutive spokes are 500 N, 700 N and 600 N respectively, find the tensions in the other two spokes.

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Problem Statement A wheel has five equally spaced radial spokes, all in tension. If the tensions of three consecutive spokes

A wheel has five equally spaced radial spokes, all in tension. If the tensions of three consecutive spokes are 500 N, 700 N and 600 N respectively, find the tensions in the other two spokes. Read More »

ABCDEF is a regular hexagon. Forces of magnitudes 2N, 4√3N, 8N, 2√3N, and 4N act at point A in directions AB, AC, AD, AE, and AF respectively. Determine the resultant force completely.

ABCDEF is a regular hexagon. Forces of magnitudes 2N, 4√3N, 8N, 2√3N, and 4N act at point A in directions AB, AC, AD, AE, and AF respectively. Determine the resultant force completely.

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Problem Statement ABCDEF is a regular hexagon. Forces of magnitudes 2N, 4√3N, 8N, 2√3N, and 4N act at point A

ABCDEF is a regular hexagon. Forces of magnitudes 2N, 4√3N, 8N, 2√3N, and 4N act at point A in directions AB, AC, AD, AE, and AF respectively. Determine the resultant force completely. Read More »

Two equal weights of 10 N are attached to the ends of a thin string which passes over three smooth pegs in a wall arranged in the form of an equilateral triangle with one side horizontal. Find the pressure on each peg.

Two equal weights of 10 N are attached to the ends of a thin string which passes over three smooth pegs arranged in the form of an equilateral triangle with one side horizontal. Find the pressure on each peg.

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Problem Statement Two equal weights of 10 N are attached to the ends of a thin string which passes over

Two equal weights of 10 N are attached to the ends of a thin string which passes over three smooth pegs arranged in the form of an equilateral triangle with one side horizontal. Find the pressure on each peg. Read More »

Two forces of magnitudes 3P and 2P acting at a point have resultant R. When the first force is doubled, the resultant also doubles. Find the angle between the forces.

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Force Angle Problem Solution Problem Statement Two forces of magnitudes 3P and 2P acting at a point have resultant R.

Two forces of magnitudes 3P and 2P acting at a point have resultant R. When the first force is doubled, the resultant also doubles. Find the angle between the forces. Read More »

Find the magnitude of two forces such that when they act at right angles, their resultant is 5 N, and when they act at an angle of 60°, their resultant is √37 N.

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Force Magnitude Problem Solution Problem Statement Find the magnitude of two forces such that when they act at right angles,

Find the magnitude of two forces such that when they act at right angles, their resultant is 5 N, and when they act at an angle of 60°, their resultant is √37 N. Read More »

. The angle between the two forces of magnitude 20 N and 15 N is 60° ; the 20 N force being horizontal. Determine the resultant in magnitude and direction

The angle between the two forces of magnitude 20 N and 15 N is 60°; the 20 N force being horizontal. Determine the resultant in magnitude and direction, if: (a) the forces are pulls; and (b) the 15 N force is a push and 20 N force is a pull

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Two Forces Problem Solution Problem Statement The angle between the two forces of magnitude 20 N and 15 N is

The angle between the two forces of magnitude 20 N and 15 N is 60°; the 20 N force being horizontal. Determine the resultant in magnitude and direction, if: (a) the forces are pulls; and (b) the 15 N force is a push and 20 N force is a pull Read More »

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