What is one advantage of using secondary sources when doing research?​

the forces acting on an object is the net force or resultant force. ... Force is a vector and hence has both a direction and magnitude. For example, gravitational force (on earth) acts in downward direction and has a magnitude equal to mass of the object and acceleration due to gravity.

Answer:

Explanation:

The net force or resultant force is sum of all the forces act upon an object. As force is a vector quantity it has both magnitude as well as direction. so net force is calculated by keeping direction of application in mind such as friction force is always acts in the direction opposite to the motion of object and gravitational force always acts downwards.

Answer: (A) Crystallography

Explanation: Edge 2021

Answer:

[tex]6.33\cdot 10^{-7} m[/tex]

Explanation:

The condition for the first minimum (= first dark fringe) in the interference pattern produced by diffraction from a double slit is

[tex]d sin \theta = \frac{\lambda}{2}[/tex]

where

[tex]d=0.33 mm = 0.33\cdot 10^{-3}m[/tex] is the separation between the slits

[tex]\theta=0.055^{\circ}[/tex] is the angle of the first minimum

[tex]\lambda[/tex] is the wavelength

Solving the equation for the wavelength, we find

[tex]\lambda = 2 d sin \theta = 2(0.33\cdot 10^{-3} m)sin 0.055^{\circ}=6.33\cdot 10^{-7} m[/tex]

Answer:

More damage is done and more life is endangered in a head-on collision of two cars, each traveling at 30 mph, than in a  car crashing into a brick wall at 30 mph because the relative velocities of the head-on collision are the sum of the two velocities.

Explanation:

Car crashing to a brick wall at 30 mph is less dangerous than two cars travelling in opposite direction at 30 mph each.

This is because, for one car, the other is at a relative speed of 30+30 = 60 mph.

Answer:

B

250 watts.

Explanation:

The formula for wattage is

P = E * I

E = 10 volts.

I = 25 amps

P = 10 * 25

P = 250 Watts.

Answer:250

Explanation:

Electric power=IV

=25*10

=250Watts

Answer:

B followed by D

Explanation:

The heat energy absorbed at B goes into potential  energy that breaks the inter-molecular bonds and thus the constant temperature. Once the molecules have gained enough energy they escape the closely bonded  structure and thus are free to move in random directions due to high kinetic energy. At this point (part D)  an increase in heat energy leads to an increase in the kinetic energy leading to an increase in the temperature.

The heating curve represents five key phases: solid, melting (solid into liquid), liquid, vaporization (liquid to gas), and gas. Each flat line on the graph represents a phase change such as melting or vaporization; smooth inclines show the rise of temperature within each phase. For example, the initial incline and first flat line illustrate the heating and melting of a solid like ice into liquid.

The heating curve consists of five sections which represent different states of matter and changes of state. These include: solid, melting (solid to liquid), liquid, vaporization (liquid to gas), and gas. If we're talking about heating, these transitions happen in that order. For instance, the initial flat line on a heating curve illustrates the process of heating a solid until it reaches its melting point. The second flat line illustrates the process of actually melting the solid into a liquid, and the third line shows the heat of the liquid rising until it boils.

With water as an example, the solid section is ice being heated until it reaches 0 degrees Celsius, at which point we see the first flat line that indicates the ice melting. Once all the ice is melted, we move to the liquid phase where the temperature again rises until it reaches 100 degrees Celsius, indicating boiling and the beginning of the next phase change. This is the liquid to gas transition, shown by the second flat line on the curve.

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Answer:

Answers are, A, B, C, and D

Answer:

its actually a,c & d  :) on edg

Answer:

the correct answer choice woud be C.  hope this helps :)

Explanation:  Mountain ranges that form close to a subduction zone are likely to experience volcanic activity.

Answer:

C) Volcanic activity.

Explanation:

When an oceanic plate is subducted ( brought underneath) under a continental plate, the sediments of seafloor which is rich in water and carbon dioxide are also brought under the plate .These elements act as flux reducing the melting point of magma  which comes out in the form of volcanic eruption.    

Answer:

8.7 x 10^3 is the correct answer.

Answer:

8.7 x 10^3  

I have no explanation, I just know that it is written as this

Answer:

Point c

Explanation:

The diagram shows that the liquid changes to a gas a the point c hope this helped :)

Answer:

-The object moves

-A force acts

Explanation:

(apex)

Answer:

The speeding up is steady, it is a parabola (a=V*t+(at^2)/2), and give it's an equation in connection to time, at that point, it is conceivable to discover the separation recipe by utilizing more substantial amount mathematics(integrals).

Explanation:

Answer:

displacement vs time graph will look like a parabolic shaped graph

Explanation:

As we know that the displacement of an object is given by kinematics equation when object is moving with uniform acceleration

So we know that

[tex]d = v t + \frac{1}{2}at^2[/tex]

now here since velocity is increasing in positive X direction as well as the acceleration is also in same direction then the displacement vs time graph must be a straight line graph

so we will have

Answer: The Velocity Decreased

Explanation: e2020 answer

The magnitude of the final velocity for G1 + G2 will be less than any initial velocity because ; The velocity decreased ( A )

when the mass of an object on motion is increased by the addition of additional weight on the object, the velocity of the object on motion  will start to decrease  ( i.e. deceleration )  

Therefore the magnitude of the final velocity for G1 + G2 will be less than the magnitude of their initial velocities as they experience an increase in mass, respectively.

Hence we can conclude that The magnitude of the final velocity for G1 + G2 will be less than any initial velocity because ; The velocity decreased.  

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The velocity is the “measure of displacement over a given time” which can be best explained with the statement of “speed in a particular direction”.

Answer: Option C

Explanation:

The velocity is the measure of displacement over time whereas the speed is the measure of distance over time. Since displacement is the distance covered in a particular direction, velocity is the measure of speed in a given direction. Velocity is “vector quantity” and speed is scalar quantity.

Answer:

The molecules in the gas would be completely stationary

Explanation:

The temperature of a gas is proportional to the average kinetic energy of its molecules, according to the equation (valid for an ideal monoatomic gas):

[tex]E_k = \frac{3}{2}kT[/tex]

where

[tex]E_k[/tex] is the average kinetic energy of the molecules

k is the Boltzmann constant

T is the absolute temperature of the gas

For a gas at 0 Kelvin, T = 0: this means that the average kinetic energy of the molecules is also zero. But this means that the motion of the molecules has completely stopped, so the molecules are completely still.

Answer:

c

Explanation:

this equestion is about the safety

Answer: To minimize the chance the bracelet pulling over a test tube, causing a spill.

Explanation:

A chemistry lab is a laboratory where the potential hazards related to the chemicals may result if safety precautions are neglected. The chances of the cause of chemical splash, burns from chemicals or fire hazards can possibly  happen in a chemistry lab. The use of ornaments should be avoided in the chemical lab. Proper safety measures are to be taken to protect the body from chemical hazards by wearing close toed shoes, lab coat and gloves.

A dangling bracelet worn during the heating process is likely to spill off the acid solutions by pulling over a test tube. The test tube neck may get caught in the dangling bracelet. The test tube may collapse and break. Thus the dangling bracelet should be avoided during the process of heating.

Answer:

Constant acceleration- A

Constant velocity- C

No velocity or acceleration- B

Explanation:

For body moving with a constant acceleration, the rate of change of displacement changes over time. This is proven by the increasing gradient of the curve (A) against time.

A body that is moving at constant velocity covers equal distances over equal periods of time, thus the straight line with a constant gradient C.

A stationary body  covers no displacement as time elapses. thus the flat line with  zero gradient.

Answer:

A

C

B

Explanation:

correct on edge :)

Answer:

A. An object that's thrown horizontally off a cliff and allowed to fall

B. An object thrown upward at an angle

Explanation:

An object exhibits a two-dimensional motion if it can be described by both x and y coordinate components.This means you can describe it using a vector with the horizontal and vertical components.For example,a graph of a body that moves with a constant velocity,the sum of the velocities in the x and y directions can describe this object's position.The same with kicking a ball.The ball will rise up at an angle, where you will have the horizontal component in the x-axis direction and the vertical component in the y-axis direction.

So for the case of this question, when an object is thrown horizontally, the horizontal component is initiated which will be represented by the x-axis vector.When it is allowed to fall down, the vertical component is initiated, in this case it will be a negative vector.An object thrown upward at an angle behaves like a ball kicked at an angle.

Answer: The minimum force by which player should hit the puck to move it is 0.102 N.

Explanation:

Weight of the puck = 1.70 N

This weight of the puck is the force acting normal to the surface that is:

N = 1.70 N

The coefficient of friction =

Frictional force =

The minimum force by which player should hit the puck to move it is 0.102 N.

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Answer:

F=10.2N : Force with which the player must push the disc

Explanation:

Conceptual analysis

We apply Newton's first law because the speed is constant in horizontal direction (x):

∑Fx = 0 Formula (1)

We apply Newton's first law because the speed is zero in vertical direction (y):

∑Fy= 0 Formula (2)

∑F: algebraic sum of forces in Newton (N)  

We calculate the friction force with the following formula:

Ff=f*N  Formula (3)

Ff= friction force in Newtons (N)

f = coefficient of friction

N= Normal force in Newtons (N)

Known data:

Wp = 170 N  : puck weight

f = 0.0600 :coefficient of friction

Problem development

We replace the data in formula (1) and (2), considering that the force is positive (+) if it goes in the direction of the movement and negative (-) if it opposes the movement:

∑Fy= 0

N-Wp=0

N= Wp=170 N

∑Fx =0

F - Ff=0    F :force with which the player must push the disc

F - 0.0600*170 =0

F=10.2N

Answer:

20C is equal to 68 F.

-- Take a straight ruler.

-- Lay it down with the 'zero' mark at the start point.

-- Rotate it around the start point until the end point is also touching the edge of the ruler.

-- From the marks on the ruler, read the straight-line distance from the start point to the end point.

-- Without moving the ruler, observe and write down the DIRECTION from the start point to the end point.

-- The Displacement is the straight-line distance and direction from the start point to the end point.

Displacement is the change in an object's position. It can be calculated simply as the difference between final and initial position. If using a velocity-time graph, calculate the area under the graph.

Displacement, in the context of physics, refers to an object's overall change in position. It is a vector quantity, meaning it has both magnitude (distance) and direction. The simple way to calculate displacement is by using the formula Ax = x₁ - x₀, where x₁ is the final position and x₀ is the initial position.

If you are dealing with a velocity-time graph, displacement can be found by calculating the area under the graph. For example, if your graph shows a rectangle and a triangle under the line, you will calculate the area of both and add them up to get the displacement.

In more complex situations that involve multiple displacements in different directions, you can draw displacement vectors on a scale (like 1 cm of vector length equals 1 m in the problem) and add them up to find the total displacement. Remember, direction is important in displacement calculation.

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The astronomer Edwin Powell Hubble observed several celestial bodies, and when obtaining the spectra of distant galaxies he observed the spectral lines were displaced towards the red (red shift), whereas the nearby galaxies showed a spectrum displaced to the blue.  

From there, Hubble deduced that the farther the galaxy is, the more redshifted it is in its spectrum. The same happens with the stars and this phenomenom is known as the Doppler effect.

This phenomenon refers to the change in a wave perceived frequency (or wavelength=color) when the emitter of the waves, and the receiver (or observer in the case of light) move relative to each other.  For example, as a star moves away from the Earth, its espectrum turns towards the red.

Answer:

they shift towards red

Explanation:

A P E X

Answer:

B. Gravitational force

Explanation:

The gravitational force of an object (also called weight) is given by

[tex]F=mg[/tex]

where m is the mass of the object and g is the acceleration of gravity, and it always points in the downward direction.

In this problem, the arrow labelled with 4 is the only force pointing downward: therefore, it must be the gravitational force.

The other arrows represent:

1 --> component of the gravitational force parallel to the plane

2 --> force of friction

3 --> component of the gravitational force perpendicular to the plane

A person becomes a member of the power elite through influential positions in military, corporate, and political institutions, often facilitated by their education from prestigious universities and their wealth. These individuals exert control over critical decisions that affect the economy and policy-making. Their interwoven interests form a tight-knit group that maintains power and has the potential to challenge democratic values and create inequalities.

One becomes a member of the power elite by occupying dominant positions within the most powerful institutions of society, namely the military, corporate, and political sectors. Sociologist C. Wright Mills outlines this concept in his book The Power Elite, describing a small, interconnected group that wields significant influence and resources. These individuals tend to be highly educated, having often graduated from prestigious universities, and use their wealth and connections to control the nation's economy and secure key political positions that allow them to make decisions which benefit themselves or their interests.

According to Mills, the power elite influence or even directly control the decision-making processes of the government in such a way that they can shape policies to favor their positions. This is evident as the power elite often have overlapping roles in different sectors, such as corporate executives becoming political leaders or vice versa, creating a circulating elite that sustains its dominance. The dynamics among the power elite thus have profound implications not only for the United States but also for the global population, as their decisions can benevolently or adversely affect millions.

The influence of the power elite is also bolstered by their control over mass media, which serves as a means of propaganda to maintain their status and agenda. It's important to note, however, that members of this elite are also individuals driven by self-interest, which is a natural human trait. The concern arises when their concentrated political and economic power challenges the principles of democracy and leads to significant socioeconomic inequalities.

The Power Elite theory, as described by sociologist C. Wright Mills, refers to a small group of wealthy and influential individuals who hold dominant positions in society, consisting of government, big business, and the military.

This elite group makes decisions that benefit their own interests rather than those of the general population, often controlling economic and political aspects to maintain their power and influence.

Members of the power elite are typically highly educated, have political connections, and use their positions to influence policies and resource allocation to uphold their dominance within society.

B. 350 kg m/s. A skier of 70kg at 5m/s down a slope will have a momentum of 350kg m/s.

The linear momentum or momentum is represented by the letter p and is defined as the product of the mass of a body by its velocity, that is:

p = m · v

Therefore, when a body is in motion it has a non-zero moment. If it is at rest, its moment is zero. In the International System, it is measured in Kg · m / s.

A 70 kg skier moving at 5m/s down a slope will have a momentum:

p = (70kg)(5m/s) = 350kg m/s

The Kepler laws of planetary motion are:

1) The planets revolve around the Sun following elliptical orbits, in which the Sun occupies one of the two focii

2) A line segment connecting the Sun with the center of each planet sweeps out equal areas in equal intervals of time --> this means that the speed of the planet changes according to its distance from the Sun: the closer to the Sun, the faster the planet

3) The square of the orbital period of the planets is proportional to the cube of the semi-major axis of the orbit. In formula

[tex]\frac{T^2}{r^3} = const.[/tex]

and the constant in the equation has the same value for every planet orbiting around the Sun.

Kepler's first law of planetary motion states that every planet orbits the Sun in an elliptical shape, with the Sun at one of the focal points of the ellipse. This law helps to calculate planetary positions with increased precision within the Copernican system.

One of Kepler's laws of planetary motion is his first law, which states that each planet moves around the Sun in an orbit that is an ellipse, with the Sun located at one focus of the ellipse. This concept emerged based on the careful analysis of precise data collected, revolving around the positions in the sky of all the known planets and the Moon. The elliptical orbits described in Kepler's first law is a fundamental rule which improved the calculation of planetary positions with great precision within the framework of the Copernican system.

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Answer:

biology, chemistry, and physics

Answer: Biology, chemistry and physics

Explanation: The natural sciences include;

physics; this is the study of physical quantity of matter such as length, time etc.

Chemistry; this is the study of the chemical composition of matter and other living and non living things. The chemical properties may include

Biology is the study of life. It is the Study of life existence.

Answer:

Stereotypes are widely held beliefs that people have certain traits because they belong to a particular group stereotypes are often in accurate and frequently portray the members of less powerful less controlling groups or negatively and members of more powerful more controlling groups.

Projectile motion contains both horizontal and vertical motion.

Answer:Contains both Horizontal and Vertical Motions

Explanation:

Answer:

20

Explanation:

Answer:

20 % of energy is wasted

Explanation:

If 100 joules of energy are used when 80 joules was needed, then 100 - 80 = 20 joules were wasted. Given that 100 joules are proportional to 100 % of energy used, then 20 joules is proportional to x %, therefore:

20 J/100 J = x%/100%

x = 20%