Which programming language(s) are Arduino sketches based on?
a. BASIC
b. HTML
c. Java
d. Python
e. C/C++

{112} planes act as dislocation slip planes in an hcp metal.

In hexagonal close-packed (HCP) metals, dislocation motion primarily occurs on specific families of planes.

The family of planes that act as dislocation slip planes in HCP metals are those with the three Miller indices in the form of (a, a, c/2), where "a" is the lattice constant in the basal plane and "c" is the lattice constant in the direction perpendicular to the basal plane.

The {112} family of planes is one such family that meets this criterion and is known as the prismatic slip plane.

Other slip planes include {100} and {110} planes, which are also called the basal and pyramidal slip planes, respectively. {111} and {001} planes are not slip planes in HCP metals.

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The ways to design the mechanical interface between a Test Station Frame and the Shigley Hauler Gearboxes is given below.

The steps are to: Identify loads and forces for test interface to choose right materials and fasteners. Choose mounting: bolt or plate. Ensure gearbox alignment and accessible mounting hardware.

Ensure clearance for movement/deflection and accommodate thermal expansion/contraction during testing. Install seals and gaskets to avoid fluid or contaminant leakage. Design interface to withstand vibration or shock during testing. Verify interface design through simulations or testing for load and force endurance.

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The mass of garlic odor production of a 13mg per day.

The mass concentration of garlic odor in the kitchen 20 minutes after the chef begins is 13mg/m³.

The mass rate = steady-state concentration x air change rate x volume / decay rate

First, we need to convert the units of the steady-state concentration from μg/m3 to mg/m3 by dividing by 1000:

= 150 / 1000

= 0.15mg/m³

Mass rate = 0.15 × 2.0 × 125(0.24 per day)

= 13 mg pee day

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True. In metals, the number of vacancies is generally much greater than the number of self-interstitials. This is because the activation energy required to create a vacancy is generally lower than that required to create a self-interstitial.

A vacancy is a type of crystal defect that occurs when an atom is missing from its lattice site. This creates a small region in the crystal where there is an absence of atoms, or a "hole". Vacancies can be created by a variety of mechanisms, including thermal fluctuations, radiation damage, or chemical reactions.
Self-interstitials, on the other hand, are created when an atom is inserted into the lattice at a position that is not normally occupied. This creates a small region in the crystal where there is an extra atom, or a "bump". Self-interstitials can also be created by a variety of mechanisms, including thermal fluctuations and radiation damage.
The reason why there are more vacancies than self-interstitials in metals is due to the lower activation energy required to create a vacancy. When a metal is heated, the thermal energy of the atoms increases, and this can cause vacancies to form. Additionally, when a metal is bombarded with radiation, the high-energy particles can knock atoms out of their lattice positions, creating vacancies.

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