What causes an electric charge?

Question 1 options:

The movement of electrons due to a difference in electric potential energy


The movement of protons due to a difference in electric potential energy


The movement of neutrons due to a waterfall


The movement of electrons due to kinetic energy

 One result of wave refraction is that wave energy is concentrated on headlands projecting into the water. Refraction of waves involves a change in the direction of waves as they pass from one medium to another.

Explanation:

Refraction of waves comprises a change in the management of waves as they traverse from one medium to different. Refraction, or the bending of the track of the waves, is conducted by a transition toward speed and wavelength of the waves.

Answer:

a) one substance must dissolve in another.    

Explanation:

A solution is mixture in which a substance (solid, liquid or gas) dissolves in a liquid. A salt dissolved in water is an example solid dissolved in liquid. Ammonia dissolved in water is an example of liquid in liquid and oxygen dissolved in water is an example gas dissolved in liquid.

The substance being dissolved is known as solute and the liquid in which solute is known as solvent.

Answer: Option (a) is the correct answer.

Explanation:

Every atom consists of three sub-atomic particles which are protons, neutrons and electrons.

Inside the nucleus of an atom, there will be only protons and neutrons. Whereas electrons revolve around the nucleus of an atom.

Protons have a positive charge, neutrons have no charge and electrons have a negative charge.

Therefore, we can conclude that protons are the subatomic particles and each have a positive electrical charge.

Among subatomic particles, it's protons that have a positive charge. Neutrons are neutral and electrons have a negative charge.

In terms of subatomic particles and their electrical charges, it's protons that carry a positive charge. Neutrons, as their name suggests, are neutral and do not have a charge, and electrons have a negative charge.

So, for the list provided, the subatomic particle having a positive electrical charge is the proton. This is a fundamental concept in Physics, especially in the realm of atomic structure and electricity.

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Answer:

.a 90 ft/sec     b. s=400ft

Explanation:

when an object is shot straight upward, the force of gravity which is the earth magnetic pull  on an object to its center, acts on it

The basic parameters to be considered are

a=-g, -32ft/sec

s=distance/height attained by the object during its motion against gravity

t=time ,secs

u=initial velocity

V=final velocity ft/sec

from newtons equation of motion,

a) V = u + g*t  

So V = 250+ -32*5= 90 ft/sec  

it's velocity after 5 seconds has elapsed is  90 ft/sec  

b) s = [tex]s=ut+\frac{1}{2} *at^{2}[/tex]

[tex]s=250*5+\frac{1}{2}-32 *5^{2}[/tex]

s=400ft

the height attained after 5 seconds. ..s=400ft

Answer:

Total tension in the person's arm = 58.82 N

Explanation:

Normal Contact Force: Normal contact force is the vertical  component of the contact force that is perpendicular to the surface that an object makes contact with.

As shown in fig.1 in the diagram on the attached file below.

The Normal contact force (R) = Tsinθ = The vertical component of T

Where T = Total tension in the person's arm (N), θ = angle of inclination to the horizontal.

∴ R = Tsinθ

T = R/sinθ where R= 23N, θ =23°

T = 23/sin23° = 23/0.391

T = 58.82 N

∴ Total tension in the person's arm = 58.52 N

We have that from the Question, it can be said that  the total tension in the person's arms is

Ft=129N

From the Question we are told

A computer base unit of mass 7.5 kg is dragged along a smooth desk. If the normal contact force is 23N and the tension in the arm of the person dragging it acts at 23 degrees to the horizontal, then what is the total tension in the person's arms? ...?

Generally the equation for Horizontal motion is mathematically given as

[tex]\sumFx=FtCos \theta\\\\\sumFx=ma[/tex]

Generally the equation for vertical motion is mathematically given as

[tex]Ftsin\theta+fn=mh\\\\Therefore\\\\Ft=\frac{7.5*9.8-23}{sin23}[/tex]

Ft=129N

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Answer;

A. two glass marbles bounce off each other.

Explanation;

Elastic collisions are collisions in which both momentum and kinetic energy are conserved. The total system kinetic energy before the collision equals the total system kinetic energy after the collision. If total kinetic energy is not conserved, then the collision is referred to as an inelastic collision.

An elastic collision occurs when the two objects "bounce" apart when they collide. Two rubber balls are a good example. In an elastic collision, both momentum and kinetic energy are conserved. Almost no energy is lost to sound, heat, or deformation.

Final answer:

The situation that describes an elastic collision among the options given is two glass marbles bouncing off each other, as it aligns with the conservation of kinetic energy, which is characteristic of an elastic collision. Therefore, the correct option is a.

Explanation:

The question asks which situations describe an elastic collision. An elastic collision is characterized by the total kinetic energy of the objects involved being conserved post-collision. Among the given scenarios, two glass marbles bouncing off each other i.e. option a best exemplifies an elastic collision.

This is because, in theory, when two glass marbles collide, they do not lose any of their internal kinetic energy during the event, which is a hallmark of elastic collisions. This concept aligns with experiments that demonstrate the conservation of momentum and kinetic energy in collisions of hard objects with negligible energy loss through sound, heat, or deformation.

Other options, such as Rodrick flopping onto his sofa, a tossed water balloon flattening when it lands, and a bowling ball knocking over pins, describe scenarios where energy is not conserved in the same manner, indicating inelastic collisions. These cases involve significant energy transformation or absorption, such as into sound, heat, or deformation, which does not align with the properties of elastic collisions.

According to Hooke's Law, the distance when a spring is stretched by a hanging object varies directly as the weight of the object. We can use this information to find the distance when the weight is 7 kg. We get 84 cm.

Hooke's Law states that the distance d when a spring is stretched by a hanging object varies directly as the weight w of the object.

This means that if you double the weight, the distance will also double.

Mathematically, we can express this relationship as d = kw, where k is the constant of variation.

To find the value of k, we can use the given information: when the weight is 3 kg, the distance is 38 cm.

Plugging these values into the equation, we get 38 = 3k.

Solving for k, we divide both sides by 3 to get k = 12.

Now, we can find the distance when the weight is 7 kg by plugging this value into the equation: d = 12 * 7 = 84 cm.

By definition, of the law of ohm, we have to:

[tex] V = I * R
[/tex]

Where,

V: voltage

I: current

R: resistance

Therefore, we have that the relationship between voltage and current is proportional.

The proportionality constant for this case is the resistance.

For the current we have:

[tex] I = \frac{V}{R}
[/tex]

The proportionality constant for this case is the inverse of the resistance.

Answer:

A statement that describes the relationship of voltage and current is:

Voltage is directly proportional to current because I = V / R

Answer: detonation

detonation

Answer:

B) A pipe's length is equal to 1/2 of the wavelength of the sound wave produced by a tuning fork vibrating over one end of the pipe that is open to the air at both ends.

Explanation:

Resonance occur when one object vibrating at the same frequency of another object force that object into vibration at a greater amplitude.

Let's consider a resonance tube partially filled filled with water and force into vibration by a tuning fork. The tuning fork will force the air inside the tube into resonance. As the tines of the tuning fork vibrate at their own natural frequency they create sound wave that impinge upon the opening of the resonance tube. These impinging sound wave produced by the tuning fork will force the air inside the resonance tube to vibrate at the same frequency of the tuning fork

The word resonance from the Latin word means resound - i.e to sound out together with a louder sound.

Final answer:

The magnetic force acts in the negative y-direction for an electron moving in the positive x-direction in a field in the positive z-direction. A charge at rest experiences no force in a magnetic field. So the correct option is B for the first question and the correct option is b for the second question.

Explanation:

The direction of the magnetic force on an electron moving in the positive x-direction in a magnetic field pointing in the positive z-direction, according to the right-hand rule and considering the negative charge of an electron, would be in the negative y-direction. This can be visualized by pointing the palm of your right hand in the direction of the electron's velocity (positive x-direction), the fingers in the direction of the magnetic field (positive z-direction), and then flipping the direction because the charge is negative, giving us the force in the negative y-direction.

As for a static charge in a magnetic field, no magnetic force is exerted on a particle with charge q that is at rest when a magnetic field is turned on. A magnetic force only acts on moving charges, therefore the particle will experience no force.

The coldest places on Earth are at the poles because they are farthest from the sun, receive the least amount of sunlight, and experience months of darkness during the winter. This is compounded by the axial tilt of the Earth.

The coldest places on Earth are found near the poles due to the planet's axial tilt and distance from the sun. The Earth tilts at an angle of 23.5 degrees, which means that sunlight is not evenly distributed across its surface. The poles, being the furthest points from the equator, receive the least amount of sunlight and hence are the coldest.

Moreover, the Polar Regions are in continuous darkness for six months of the year during the winter season which contributes to the extreme cold. For example, at the South Pole on June 21, all places within 23° of the South Pole do not see the sun at all for 24 hours. These regions do not get the chance to warm up, leading to freezing temperatures and icy conditions.

It is also important to note that the Earth acts like a large bar magnet with its magnetic poles near the geographic poles. This does not have a direct impact on temperature, but it is a noteworthy feature of the poles.

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The force required to accelerate a 0.75 kg ball at a rate of 25 m/s^2 is approximately 19 newtons, calculated using Newton's second law of motion.

To calculate the required force to make the ball accelerate at the given rate, we need to use Newton's second law of motion, which states that the force applied on an object is equal to its mass times its acceleration (F=ma). To find the force, we multiply the mass of the ball (0.75 kg) by the acceleration (25 m/s^2).

This gives us a force of 18.75 newtons. None of the provided options match this exact answer; the closest option is B. 19 newtons, so we would select this as the best answer with the understanding that it has been rounded.

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Answer : t = 7.044 sec

Explanation :

It is given that,

Velocity, [tex]v=90\ feet/sec[/tex]

distance, [tex]s=160\ m[/tex]

[tex]H(t)=-16\ t^2+ vt+ s[/tex]

When firecracker hits the ground hen H(t) = 0

So, [tex]-16 t^2+90\ t+160=0[/tex]

or

[tex]8 t^2-45\ t-80=0[/tex]

Solving this quadratic equation, we get

[tex]t=\dfrac{-(-45) \pm \sqrt{(-45)^2-4(8)(-80)} }{2(8)}[/tex]

[tex]t=\dfrac{45\ \pm\sqrt{4585} }{16}[/tex]

[tex]t=7.044\ sec[/tex]

Neglecting negative values as time can't be negative.

Firecracker will take 7.044 sec to hit the ground.

Answer:[tex]510. 12 cm^3[/tex]

The volume of a cylindrical conduit, [tex]V=\pi (r_2^2-r_1^2) h[/tex]

where [tex]r_1[/tex] is the inner radius, [tex]r_2[/tex] is the outer radius, h is the length.

First of all, we would covert each parameter into centimeters.

length of the conduit, [tex] h=4 ft=4\times 30.48 cm=121.92 cm[/tex]

outer radius, [tex]r_1=2.2/2 in =1.1 in= 1.1\times 2.54 cm=2.79 cm[/tex]

inner radius, [tex]r_1=2/2 in =1 in= 2.54 cm[/tex]

Insert the values in the volume formula,

[tex]V=3.14 \times (2.79^2-2.54^2) \times 121.92 cm^3=510. 12 cm^3[/tex]

Hence, the volume of metal in the conduit is 510. 12 cubic centimeters.

Answer: The correct answer is "visible rays".

Explanation:

Electromagnetic wave: In electromagnetic wave, both the electric fields and the magnetic field are directed in the direction of the propagation of the electromagnetic wave. Electromagnetic wave travels in vacuum.

It travels with the speed of the light.

For example, X-rays, gamma rays, infrared rays and visible region.

The electromagnetic spectrum consists of visible region and an invisible region.

Visible region of the electromagnetic can be seen by naked eyes. Its range is 400 nm to 700 nm.

We are unable to see infrared rays, ultraviolet light and gamma rays.

Therefore, the correct option is (b).

The jackhammer produces primarily P-waves (compression waves) and S-waves (shear waves) that transfer energy into the ground, causing the pavement to break up. P-waves involve particle motion parallel to wave direction, while S-waves involve perpendicular particle motion. These waves are efficient in fracturing solid materials.

The vibrations produced by a jackhammer that are used to break up pavement generate seismic waves, specifically compression waves and shear waves.

A compression wave, also known as a P-wave (primary wave), is characterized by the motion of particles parallel to the direction of wave propagation. In other words, the material through which the wave passes is alternately compressed and expanded along the direction of the wave.

In contrast, a shear wave, or S-wave (secondary wave), involves particle motion that is perpendicular to the direction of wave propagation. This type of wave causes materials to move up and down or side to side.

When the jackhammer strikes the pavement, it primarily generates these two types of body waves, transferring energy into the ground to fracture and break up the solid material effectively.

The Doppler effect says that the observed wavelength is shortened

when the source is approaching the observer, and lengthened when

the source is receding from the observer.

All we can say about the police car and its siren is that the sound/color

has a shorter wavelength as it approaches us, and a longer wavelength

as it recedes.

Any of these pairs of answers would say that:

  A -- A

  C -- A

  D -- A

or

  D -- D

For each of these pairs, the second wavelength is longer than the first one.

(We don't know which pair is the actual one, because we don't know the actual color of the police car.)

If we relate the Doppler effect on sound to the color of light waves, a police car would be the color blue as it approaches and the color red as it recedes away from the observer.

The Doppler effect is a phenomenon that occurs when two objects move closer or farther apart, increasing (or decreasing) the frequency of sound, light, or other waves.

The Doppler effect is to sound waves as well for the light waves

The apparent shift in the frequency of the light that the observer perceives as a result of relative motion between the source of the light and the observer is known as the Doppler effect of light.

However, the equations for the Doppler shift for sound waves vary significantly depending on whether the source, the observer, or the air is moving. Light doesn't need a medium to travel, and the observer and source's relative speeds are the only factors affecting the Doppler shift for light.

A police car would appear blue as it approaches as there is an increase in frequency resulting in the decrease in the wavelength of light known as the blue shift.

similarly, it appears red as it moves away from the observer because of the decrease in the frequency resulting increase in the wavelength of the light known as the redshift.

Thus, If the Doppler effect on sound may be compared to the color of light waves, then a police car would appear blue as it approaches and red as it moves away from the observer.

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Let's see the charge of each particle first:

- proton: charge +1

- neutron: charge 0

- electron: charge -1

We have 5 protons, 5 neutrons and 3 electrons, so the total charge of the atom is:

[tex] Q=5 \cdot (+1) + 5 \cdot (0) + 3 \cdot (-1) =5+0-3=+2 [/tex]

So, the correct answer is

A. +2