APEX!!! PLEADE HELP!!!!
A 60 kg man is moving at 2 m/s. What is his kinetic energy?
A. 240j
B. 120j
C. 60j
D. 30j
THIS IS SIMPLE BUT I WANT A FOR SURE ANSWER :)
The ocean floor is at a lower elevation than the continents. Which of the following pieces of evidence best supports this claim?
A.Tectonic plates located below the continental crust do not move
B.Gravitational force is stronger beneath the continental crust.
C.Oceanic crust is thinner and denser than continental crust.
D.Continental crust and oceanic crust are stacked in alternating layers.
Answer:
C. Oceanic plate is thinner and denser than continental plate.
Explanation:
Oceanic plate is also called SIMA because it is made up of silicon and magnesium whereas continental plate is called SIAL because it is made up of silicon and aluminium. Oceanic plate and continental plate both are less dense that mantle but oceanic plate is denser than continental plate. Oceanic plate is made up of basaltic rocks and continental plate is made up of granitic rocks.
Meredith takes a glass of water outside on a hot summer day and leaves it there for several hours. When she returns, part of the water has evaporated and there is less water in the glass. What kind of state change did some of the water go through to make it disappear?
A. It changed from a solid to a gas.
B. It changed from a gas to a liquid.
C. It changed from a liquid to a solid.
D. It changed from a liquid to a gas.
Answer:
D. It changed from a liquid to a gas.
Explanation:
The water in the glass experiences a phenomenon called Evaporation, resulting from the heat of the atmosphere (as it is a hot summer day). The surface layer of the water in the glass will experience a change in state from liquid to gas and the layer beneath it will follow until a noticeable decrease in the water height in glass is present. This state change makes some of the water 'disappear'
Nineteenth century English scientist Michael Faraday found that if he moved a magnet through a loop of wire, an electric current flowed in that wire.
What process did Faraday discover?
A. solenoid induction
B. electromagnetic induction
C. magnetic induction
D. electric induction
Answer : Electromagnetic induction
Explanation :
In Nineteenth century English scientist Michael Faraday found that if he moved a magnet through a loop of wire, an electric current flowed in that wire.
He gives the relation ship between the magnetic field and the electric current to produce electromagnetic force (EMF). The EMF is given as :
[tex]\epsilon=-N\dfrac{d\phi}{dt}[/tex]
Where,
N is the number of turns
[tex]\dfrac{d\phi}{dt}[/tex] is the rate of change of magnetic flux
[tex]\phi=B.A[/tex]
B is the magnetic field
A is the area of cross section
So, the correct option is (B) "electromagnetic induction"
Nineteenth-century English scientist Michael Faraday found that if he moved a magnet through a loop of wire, an electric current flowed in that wire. Faraday discovers electromagnetic induction. The correct option is option (B).
Michael Faraday discovered the process of electromagnetic induction. He found that when a magnet moves through a loop of wire, an electric current is induced in the wire.
This phenomenon is the basis of electromagnetic induction, which describes the generation of an electric current or electromotive force (emf) in a conductor when it is exposed to a changing magnetic field.
Faraday's discovery of electromagnetic induction was a crucial development in the field of electromagnetism and laid the foundation for the development of electric generators, and transformers.
Therefore, Faraday discovers electromagnetic induction. The correct option is option (B).
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Which is an example of a third-class lever?
A. scissors
B. nutcracker
C. fishing pole
A fishing pole is an example of a third-class lever where the force applied by your hand is between the fulcrum at the end of the pole and the load being the line and hook.
Explanation:In the world of physics, third-class levers have the application of force located between the fulcrum and the load. This type of lever is common in daily life and is found in many tools we frequently use. An excellent example of a third-class lever from the options provided in your question is a fishing pole. When you cast the line using a fishing pole, your hand provides the force in the middle of the pole (the lever), with the fulcrum at the end where the pole pivots, and the load being the line and hook that are cast out.
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What is the IMA of the inclined plane shown?
What is the IMA of the lever pictured?
the sloped one is the one with the W
Answer:
3
Explanation:
Compare the functions of nervous signal transmission and endocrine transmissions-
Which of the following processes requires a physical medium (a solid, liquid, or gas) to transfer thermal energy from one object to another?
I. conduction
II. convection
III. radiation
A. I and III only
B.I and II only
C. III only
D. II only
E. none of these require a physical medium to transfer thermal energy.
Conduction and convection require a physical medium (a solid, liquid, or
gas) to transfer thermal energy from one object to another.
Conduction is the process of heat transfer that takes place in solids.
Thermal energy is usually transferred from hotter surfaces to colder ones in
order to ensure equilibrium is reached
Convection is also similar to conduction but involves heat transfer in fluids
such as water. Radiation on the other hand doesn't require a physical
medium as it exists through a vacuum. This makes option B the most
appropriate choice.
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Newton concluded that some force had to act on the moon because
Newton concluded that some force had to act on the moon because it is constantly accelerating towards Earth.
Without such a force, according to Newton's First Law, the Moon would continue in a straight path instead of orbiting the Earth. In 1666, he recognized that this centripetal force was necessary to maintain the Moon's circular path. He also theorized that the gravitational force must be proportional to the masses of the Earth and the Moon and that it follows an inverse-square relationship with distance.
Newton's insight was that the same force that causes an apple to fall to the ground also keeps the Moon in orbit around the Earth. This led him to deduce the Law of Universal Gravitation. According to Newton's Second Law, the moon's acceleration towards Earth indicated a centripetal force, which he later defined in his Principia using his laws of motion and the newly formulated concept of gravitational force.
Furthermore, Newton discovered that the gravitational force between any two bodies not only follows the Universal Law of Gravitation but also forms an action-reaction pair, satisfying his Third Law of Motion. This was a crucial realization for Newton to fully explain the motion of the planets and the gravitational pull between the Earth and the Moon.
If you shook the end of a rope up and down 5 times each second, what would be the period of the waves set up in the rope?
Final answer:
Shaking the rope at 5 times per second sets up waves with a frequency of 5 Hz. The period of these waves, which is the inverse of frequency, would be 0.2 seconds.
Explanation:
When you shake the end of a rope up and down 5 times each second, you are creating waves with a certain frequency. The frequency is the number of complete waves that pass a given point in one second, and it is measured in hertz (Hz). Since you're shaking the rope 5 times per second, the frequency of the waves set up in the rope is 5 Hz.
The period of a wave is the time it takes for one complete wave cycle to pass a point. It is the inverse of the frequency. To calculate the period (T), you would use the formula:
T = 1 / f, where 'f' is the frequency.
So in this case:
T = 1 / 5 Hz = 0.2 seconds.
Therefore, the period of the waves set up in the rope is 0.2 seconds.
Does a physicist studies cells and life cycles?
Final answer:
Physicists may delve into biological concepts through biophysics, but the study of cells and life cycles is principally a field within biology, focused on by cell biologists.
Explanation:
No, A physicist primarily studies the fundamental principles governing the universe, such as energy, force, and matter. While physics does impact biological systems by explaining behaviors of molecules in cells or assisting in the creation of medical technology, the study of cells and life cycles specifically falls within the realm of biology.
Cell biology is a branch of biology focusing on the study of cellular structures and functions and is fundamentally concerned with the life cycle of cells. Physicists may contribute to this field through biophysics or biomedical applications, such as using physics principles to describe properties of cell membranes or developing diagnostic tools like MRI machines. However, the everyday work of studying cells and their life cycles is typically performed by biologists rather than physicists.
13.
Scientists can work in which of the following. Select all that apply.
Universities
Government
Business and industry
Medical Institutes
Answer:
Universities. Government. Business and industry.
Medical Institutes. They are all CORRECT
Explanation:
I had the same question and I got it right using all 4 answers.
Which are examples of projectile motion? Check all that apply. a kicker punting a football a car traveling along a highway a free throw in basketball a ball rolling downhill a person throwing darts
A kicker punting a football, a free throw in basketball and a person throwing darts are some examples of projectile motion.
What is a projectile motion?It is the movement of any item or material when it is launched from the planet's surface and takes any curving course while being affected by the pull of gravity of the planet.
This movement style The only force affecting our objects is gravity. Different projectile kinds are available.
A football is thrown upward, being kicked and imparting speed at an angle from the horizontal, or just being dropped and allowed to fall independently are all examples of the initial velocity.
Thus, a kicker punting a football, a free throw in basketball and a person throwing darts are some examples of projectile motion.
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A red filter only allows red light to pass through it. It is _________ to red light and _________ to all other types of light.
A. opaque; opaque
B. transparent; opaque
C. opaque; transparent
D. transparent; transparent
A red filter is transparent to red light as it allows it to pass, and opaque to all other light types, preventing them from passing through. The answer to the multiple choice is B. (transparent; opaque)
Explanation:In the context of light transmission, when a filter allows light of a certain color to pass through, it is considered transparent to that light. Conversely, if the filter does not allow light of a certain color to flow through, it is opaque to that light. A red filter only allows red light to pass through it, blocking all other colors of light. Therefore, the answer to this question is B. The red filter is transparent to red light and opaque to all other types of light.
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Lena would like to be able to know her exact location on a map as she travels across the country. Which technology would best help Lena?
What is the angle between a light ray and its wavefront?
Both lead and zinc are formed as precipitates. Which of these is a step in the formation of the minerals?
elements combine at high pressure
magma cools after a volcanic eruption
atoms combine in water to form solids
materials break up due to rise in temperature
Final answer:
Lead and zinc minerals commonly form as precipitates from hot underground water cooling and depositing solid minerals. They can also form from the cooling and crystallization of magma, particularly in the presence of hydrothermal fluids.
Explanation:
Lead and zinc minerals can form through several geological processes, and one of the key methods for their formation is through the precipitation of minerals from an aqueous (water) solution. When hot underground water that has been heated by magma cools as it moves through the Earth's crust, it can deposit solid minerals. This happens because the solubility of substances often decreases as the temperature drops, leading to the formation of solids from the previously dissolved elements or compounds.
Additionally, minerals can form when magma cools after a volcanic eruption or during more gradual processes. If magma cools slowly, the minerals have time to form large, identifiable crystals. Conversely, rapid cooling leads to the formation of small crystals or even glassy textures without discernible crystals.
Hydrothermal mineral deposits are another significant source of minerals, such as lead and zinc. These deposits form when super heated water from magma chambers dissolves minerals, and as the solution cools and travels towards the surface, the dissolved minerals precipitate out, often forming rich ore bodies.
A plane takes off in san francisco at noon and flies toward the southeast. an hour later, it is 400 kilometers east and 300 kilometers south of its starting location. assuming the plane flew in a straight line, how far did it travel? how many degrees south of east did the plane fly?
an example of a Destructive force is the formation of mountains True or False?
Why does the plot show vertical jumps at the melting and boiling points?
An electron is released from rest and travels over a potential difference of 2500 v. what is its final velocity?
A sound wave is moving with a frequency of 700 Hz. What is the period of this sound wave?
700 s
1/700 s
1/700 Hz
70 s
Answer:
1/700s
Explanation:
took test
The current in an electron beam in a cathode ray tube is 7.0 X 10^-5 A. A beam of electrons is aimed at a screen. How much charge hits the screen in 5.0S?
A- 2.8X10^3 C
B-5.6X10^-2 C
C-3.5X10^-4 C
D-5.3X10^-6 C
Match each wave characteristic to its description.
TILES
frequency
wavelength
amplitude
PAIRS
the distance between adjacent crests or troughs
the number of cycles of a wave per second
the height of a wave from its equilibrium position
Answer :
Frequency - The number of cycles of wave per second
Wavelength - The distance between adjacent crests or troughs
Amplitude - The height of wave from its equilibrium position
Explanation :
Frequency - The number of cycles of wave per second
Formula of frequency
[tex]f=\dfrac{1}{T}[/tex]
Wavelength - The distance between adjacent crests or troughs
Formula of wavelength
[tex]f=\dfrac{c}{\lambda}[/tex]
Amplitude - The height of wave from its equilibrium position
Which of the following types of pollution is NOT linked to coal-burning power plant emissions?
A) acid rain
B) global warming
C) ozone hole
D) smog
The ozone hole is not linked to coal-burning power plant emissions; while acid rain, global warming, and smog are.
Explanation:The type of pollution that is NOT linked to coal-burning power plant emissions is the ozone hole (option C). Acid rain is linked to coal-burning because of the release of sulfur dioxide (SO2) and nitrogen oxides (NOx) into the atmosphere, which can combine with water vapor to form acid rain. Global warming is associated with coal-burning due to the emission of carbon dioxide (CO2), a major greenhouse gas. Smog is a type of air pollution that can be exacerbated by the release of various pollutants from coal-burning, including particulate matter and SO2. However, the depletion of the ozone layer, commonly referred to as the ozone hole, is primarily caused by chlorofluorocarbons (CFCs) and not emissions from coal combustion.
When aluminum-27 is bombarded with a neutron, a gamma ray is emitted. what radioactive isotope is produced?
Answer:
Go to the excited aluminum-28 isotope
Explanation:
In the processes of nuclear reactions, fundamental changes occur at the level of the atomic nucleus.
Analyze the characteristics of the neutron that has approximately the mass of the proton and has no electric charge, so when being absorbed by the aluminum core the atomic number should not be changed, but the atomic mass should increase by one unit.
The new atom formed is in an excited state and enters the base state with the emission of a high-energy radiation, gamma ray that does not transform the atom
Tthe reaction is:
⁷A₂₇ + ⁰n₁ → ⁷Al₂₈ˣ
The symbol "ˣ" means excited
⁷Al₂₈ˣ → ⁷Al₂₈ + γ
Match the terms
Term Definition
Chromosphere A) Layer of the sun where energy is transferred by thermal conduction.
Photosphere B) Contains the sun's outer shell from which light energy is radiated.
Radiative zone C) Layer of the sun that is known for its red color and can only be seen during eclipses
Corona D) The plasma that surrounds the sun
Explanation :
(1) Chromosphere: It is a layer above the photosphere. The temperature in chromosphere increases from [tex]6000^0\ C[/tex] to [tex]20,000^0\ C[/tex]. This layer is known for its red color and can only be seen during eclipses.
(2) Photosphere: It is the outer layer of the star which contains sun's outer shell from which light energy is radiated.
(3) Radiative zone: it is a layer of sun where energy is transmitted towards via radiative diffusion or conduction.
(4) Corona: It is a plasma that surrounds the sun and the other stars.
Hence, this is the required definitions.
Answer:bdca
Explanation:
A 150 kg hoop rolls along a horizontal floor so that the hoop's center of mass has a speed of 0.130 m/s. how much work must be done on the hoop to stop it?
a water-balloon launcher with mass 4 kg fires a 0.5 kg balloon with a velocity of 3 m/s to the east. what is the recoil velocity of the launcher?
The mechanical advantage of a machine is always greater than 1. true or false
Final answer:
The statement is false; the mechanical advantage of a machine is not always greater than 1. It is the ratio of the output force to the input force and can be less than 1 in machines like third-class levers. However, machines like hydraulic systems with a wider output plunger can have a mechanical advantage greater than 1.
Explanation:
The statement that the mechanical advantage of a machine is always greater than 1 is false. The mechanical advantage (M.A.) is the number of times the input force is multiplied by a machine to achieve a greater output force. It's determined by the ratio of the output force to the input force.
In certain simple machines like levers, the mechanical advantage can indeed be less than 1. For example, in a third-class lever, where the effort arm is shorter than the load arm, the user must apply more effort than the load. This results in a mechanical advantage of less than 1. On the other hand, when discussing hydraulic systems, if the output plunger is wider than the input plunger, the mechanical advantage is greater than 1 as the output force is bigger than the input force.
The efficiency of a machine, which is the ratio of output work to input work, is always less than 100 percent due to energy losses such as friction, which converts some of the work into heat. This is a separate but related concept reflecting the loss of useful work when operating a machine.
In conclusion, while many tools and machines are designed to give us a mechanical advantage, this advantage can either be greater or less than 1, depending on the design and function of the machine.