The principles referred to in the question are called biomechanical principles. Some of them are:
- Principles of Force; and
- The principle of impulse direction.
<h3>What principle is most relevant to jumping?</h3>
The principle that is most relevant to jumping is called Angular Momentum.
<h3>
What is Angular Momentum?</h3>
Simply defined, this refers to the velocity of the rotation of a body around an axis or a fixed point.
Other principles of biomechanics are the principles of:
- linked segments.
- impulse-causing momentum.
- the stretch-shorten cycle.
- summing joint forces.
- continuity of joint forces.
See more about biomechanical principles at:
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The shear stress at any given point y1 along the height of the cross section is calculated by: where Ic = b·h3/12 is the centroidal moment of inertia of the cross section. The maximum shear stress occurs at the neutral axis of the beam and is calculated by: where A = b·h is the area of the cross section.
Complete Question
The complete question is shown on the first uploaded image
Answer:
a) The required additional minterms for f so that f has eight primary implicants with two literals and no other prime implicant are and
b) The essential prime implicant are and
c) The minimum sum-of-product expression for f are
Explanation:
The explanation is shown on the second third and fourth image
A sample inventory of farm tools would look like this:
Rakes Quantity= 2 1 is in good working condition 1 is in need of repair
Watering cans Quantity= 12. All are in good working condition
<h3>What is Inventory?</h3>
This refers to the complete list of items that are held, usually for the purposes of reselling them.
Hence, we can see that when making an inventory, it is important to note the current condition of the goods or materials and make notes of whether they need replacing or not, etc.
Read more about inventory here:
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