The Hooke's Law graph illustrates the relationship between force applied to a spring and the resulting elongation or compression of the spring. It shows that the force applied is directly proportional to the amount of elongation or compression in the spring. This means that as more force is applied, the spring will stretch or compress more, following a linear relationship as described by Hooke's Law.
Tensile strength and elongation are inversely related in materials. This means that as the tensile strength of a material increases, its elongation decreases, and vice versa. Materials with high tensile strength are typically less ductile and have lower elongation values, while materials with lower tensile strength are more ductile and have higher elongation values.
A graphical relationship refers to the visual representation of the connection or correlation between two or more variables through graphs or charts. It helps to illustrate patterns, trends, or associations between the data points for easier interpretation and analysis.
The Hooke's Law graph shows that the relationship between force and extension in a spring is linear. This means that as the force applied to the spring increases, the extension of the spring also increases proportionally.
A linear model would be most effective to demonstrate the relationship between distance and time, as it represents a constant rate of change over time. The equation can be written as distance = speed * time, where speed is the constant factor.
The voltage vs resistance graph shows that there is a direct relationship between voltage and resistance. As resistance increases, the voltage required to maintain the same current also increases. This relationship is depicted by a linear graph where the slope represents the resistance.
strain is percent elongation/100; for example a strain of 0.02 is 2% elongation. Often we refer to elongation at failure; for example if a material fails at 10% elongation its strain is 0.10
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Yes.
Tensile strength and elongation are inversely related in materials. This means that as the tensile strength of a material increases, its elongation decreases, and vice versa. Materials with high tensile strength are typically less ductile and have lower elongation values, while materials with lower tensile strength are more ductile and have higher elongation values.
It is used to demonstrate the relationship between the motion and cause of motion.
They illustrate the relationship between two (or more) variables.
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how government use the elasticity concept to genrate revenue
To illustrate the relationship between one or more dependent variables and a variable (often an independent variable).
The graph illustrates the relationship between vapor pressure and temperature. As temperature increases, vapor pressure also increases.
idea model.
-- a person walking -- an ant running -- a car driving