Which verb is in the future perfect progressive form? A. were knocking B. will have been speaking C. will be going D. have been relaxing<--

Answer:

Stress and strain are fundamental concepts in materials mechanics, a branch of engineering that deals with the behavior of materials under various forces. Let's explore the difference between stress and strain and their relationship:

**Stress**:

Stress is a measure of the internal resistance within a material to external forces or loads applied to it. It's the force per unit area and is represented in units of pressure (N/m² or Pascals). Stress can be categorized into different types based on the nature of the force and deformation:

- **Tensile Stress**: The force that elongates or stretches a material along its axis.

- **Compressive Stress**: The force that compresses or shortens a material along its axis.

- **Shear Stress**: The force that causes one layer of a material to slide over an adjacent layer.

**Strain**:

Strain is a measure of the deformation or change in shape that occurs in a material as a result of stress. It's typically expressed as a dimensionless ratio and is often given as a percentage change in length. Strain is a measure of how much a material has deformed under the applied stress.

**Relationship between Stress and Strain**:

The relationship between stress and strain is described by the material's mechanical properties, specifically its elastic modulus (also known as Young's modulus or stiffness). The elastic modulus represents how much a material will deform under a given stress. The formula relating stress (σ) and strain (ε) is given by:

```

σ = E × ε

```

where:

- σ is the stress

- E is the elastic modulus

- ε is the strain

In other words, the stress applied to a material is directly proportional to the strain it experiences. This relationship holds within the material's elastic limit, where deformation is temporary and reversible. Beyond the elastic limit, the material might experience permanent deformation or failure.

Understanding the stress-strain relationship is crucial for designing structures and materials that can withstand various loads and forces without failing. Engineers use this knowledge to ensure that materials are used safely and effectively in applications ranging from buildings and bridges to automotive components and medical devices.

Explanation:

Answer:

In materials mechanics, stress and strain are fundamental concepts that describe the behavior of materials under applied forces. They are closely related but represent different aspects of how materials respond to external loads. Here's the difference between stress and strain and how they are related:

**Stress:**

- Stress is a measure of the internal resistance within a material to deform when subjected to an external force.

- It is defined as the force applied per unit area of the material's cross-sectional area.

- Stress is expressed in units of force divided by area, such as pascals (Pa) or newtons per square meter (N/m²).

- There are different types of stress, including normal stress (acting perpendicular to the surface) and shear stress (acting parallel to the surface).

**Strain:**

- Strain is a measure of the deformation that occurs in a material due to the applied stress.

- It is defined as the change in dimension (length, area, or volume) divided by the original dimension of the material.

- Strain is a dimensionless quantity, often expressed as a ratio or a percentage.

- There are different types of strain, including axial strain (related to length change), shear strain (related to shape change), and volumetric strain (related to volume change).

**Relationship between Stress and Strain:**

The relationship between stress and strain is described by a material's mechanical properties, specifically its **elastic modulus** or **Young's modulus** (E). This modulus represents the stiffness of the material and defines how it responds to stress by undergoing strain. The relationship is expressed by **Hooke's Law**:

Stress (σ) = Elastic Modulus (E) × Strain (ε)

In linear elastic behavior, where the material returns to its original shape after the load is removed, stress and strain are directly proportional within the material's elastic limit. This linear relationship is characterized by Hooke's Law. However, when stress exceeds the material's elastic limit, the relationship between stress and strain becomes nonlinear, and the material undergoes permanent deformation or plasticity.

In summary, stress represents the force per unit area applied to a material, while strain represents the resulting deformation. The relationship between stress and strain defines the mechanical behavior of a material, and this relationship is described by the material's elastic modulus.

Explanation:

Answer:

B is the correct one on Edginuity

Explanation:

Answer: Cell wall and cell membrane

Explanation: The cell wall and cell membrane protects the cell the cell wall gives it it's shape and the membrane controls what enters or exits the cell

Answer:

Cell Wall and cell membrane i just did the assignment.

Explanation:

The most likely meaning of legacy as it is used in this sentence is something handed down from someone who came before.

What is legacy?

An amount of money or property or acknowledgement left to someone, which gives it extra consideration or fame, is called legacy.

An example is a college or university applicant who is given special consideration because a parent or other relative attended the same institution.

Thus, the correct option is d. something handed down from someone who came before.

Learn more about legacy

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Answer:

D. something handed down from someone who came before.

Explanation:

They say the liberty is something Americans CONTINUE to enjoy, it has been passed down.