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4 years ago

What is the goal of aggression?

2 answers:

5 0

<span>The answer to the question is D. To remove the obstacle that's causing frustration. In aggression, one uses hostile behavior to confront an obstacle, often another individual. The behavior is often violent and is used to get rid of the obstacle that is causing the aggressor frustration.</span>

alex41 [277]4 years ago

4 0

The goal of aggression is D. To remove the obstacle that's causing frustration.

<h3>Further explanation</h3>

Aggression is the numerous purposes and different types of actions and also factors causing a person to hurt themselves. According to the dictionary, aggression is the behavior aimed at harming others in physically or psychologically. The goal people choosing aggression because of the frustration. When a person wants the type of thing to achieve, but hindered by a certain type of circumstance they tend to be aggressive over their actions to remove the obstacle that's causing frustration.

The examples of aggression are including physical violence such as biting, hitting, and kicking. The other also verbal hostility for example sending threatening messages through emails, phone calls, or social media, also making threats against people's life, shouting, and swearing.

There are three types of aggression such as:

Reactive-expressive for example: verbal and physical aggression
Reactive-inexpressive, for example: hostility
Proactive-relational aggression, for example: aggression that breaking human relationships, such by circulating malicious rumours

Hope it helps!

<h3>Learn more</h3>

Learn more about aggression brainly.com/question/12826092
Learn more about anger brainly.com/question/8045188
Learn more about role model brainly.com/question/4451823

<h3>Answer details</h3>

Grade: 9

Subject: Physicology

Chapter: aggression

Keywords: aggression, anger, role model, frustration, obstacle

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Solve using correct significant figures and indicating maximum absolute uncertainty.

Vera_Pavlovna [14]

We use the criterion of significant figures to find the result with reliable figures

X = 9.2 10-5

now with the propagation of errors we obtain the result with its uncertainty

X ± ΔX = (9.2 ± 0.5) 10⁻⁵

given Parameter

* expression values with their absolute errors

to find

* the result with the correct significant figures

* the absolute error of the expression

Significant figures are defined with the number of decimals that give information, the number of figures in a quantity gives information about the uncertainty of this quantity.

There are two criteria for applying significant figures:

* Add and subtract the result of going with the number of decimal places of the figure that has the least

* Product and division as a result of going with the least number of significant figures than the value that has the least.

Remember that the zero to the left do not form a pair of the significant figures

Let's apply this belief to the case presented, let's write the precaution

$x = \frac{a-b}{c}$

where in this case they are worth

a = 0.0336 ± 0.0002

b = 0.010 ± 0.001

c = 255.4 ± 0.4

We see that the significant figures of each parameterize (a, b, c) and their absolute errors are correct.

Let's apply the criteria to the operation

a-b = 0.0336 - 0.010

a- b = 0.0236

we apply the criterion of significant figures for the subtraction, the result must be with 3 decimal places

a - b = 0.024

let's do the other operation

X = $\frac{a-b}{c}$

X = 0.024 / 255.4

X = 9.24 10⁻⁵

We apply the criterion of significant figures for the division, in this case the result is left with two significant figures

X = 9.2 10⁻⁵

The uncertainty or error of the measurements is of most importance as it determines how many significative figures are reliable at a given magnitude.

If the magnitudes are measured with some type of instrument, the absolute error is given by the appreciation of the instrument, if the magnitude is calculated using some equation, the errors must be propagated using the variations of each parameter in the worst case.

the uncertainty of the calculated quantity (X) is

$\Delta X = | \frac{dX}{da}| \Delta a + | \frac{dX}{db} | \Delta b + | \frac{dX}{dc}| \Delta c$

let's perform the derivatives

$\frac{dX}{da} = \frac{1}{c}$

$\frac{dX}{db} = - \frac{1}{c}$

$\frac{dX}{dc} = - \frac{a-b}{c^2}$

we substitute

remember that the bulk value guarantees that we tune the worst case. So all the mistakes add up

ΔX = $\frac{1}{c}$ Δa + $\frac{1}{c}$ Δb + $\frac{a-b}{c^2}$ Δc

ΔX = $\frac{1}{c}$ (Δa + Δb) + $\frac{a-b}{c^2}$ Δc

we substitute

ΔX = $\frac{1}{255.4}$ (0.0002 + 0.001) + $\frac{0.0336-0.010}{255.4^2}$ 0.4

ΔX = 4.698 10⁻⁶ + 1.45 10⁻⁷

DX = 4.8 10-6

Absolute errors must be given with a single significant figure

ΔX = 5 10⁻⁶

The result of the requested quantity using the criterion of significant figures and propagation of errors is

X ± ΔX = (9.2 ± 0.5) 10⁻⁵

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