Answser: 8 m/s
Explanation:
Sally performed an experiment, in which she handled two variables:
The distance is fixed, so she only measured it one time and it was 24m.
She timed 10 trials and calculated the average time of 3 seconds. So, you will use this time fo calculate the average speed of the hummingbird flying from one feeder to the other, using the formula:
Hence, the result is 8 m/s.
Answer:8 m/s
Explanation:8 m/s
you make the following measurements of an object 42kg and 22m what would the objects density be. show your work
The distance between one point on a compression and the corresponding point on the next compression in a sound wave is called a
How is the ideal mechanical advantage of a wheel and axle calculated?
Divide the radius of the wheel by the radius of the axle
What is the composition of Level C in a soil profile
A. Topsoil mixed with inorganic material.
B. Clay and slit mixed with sand
C. Decayed organic material.
D. Weathered rock fragments
The correct choice is
D. Weathered rock fragments
An ion is created when __________ are added or removed.
There is a close relationship between magnetic forces and the generation of electric current. Explain how magnets can be used to generate electric current and how electric current can be used to create electromagnets. For each, give an example of a device you would find around the home.
Answer:
If a magnet is continuously moved to and fro in a coil or vise versa , due to change in magnetic field passes through a coil , electric current can be produced, it called electromagnetic induction.
And if current flows in a coil , it will behave like a magnet , that is called Electromagnetism.
Explanation:
What is electromagnetic induction and Electromagnetism ?According to the Faraday's law , when magnetic field passing through a coil is changed , an electric potential is developed , that causes current , the phenomenon is called Electromagnetic induction.In it ,the induced emf (potential)is directly proportional to the rate of change of magnetic flux,[tex]e = N. \frac{(B.A)}{dt}[/tex] Example- Generator.According to the Clock wise rule , when current flows in a coil , according to the direction of current , its one face become N pole and S pole, thus it becomes a magnet or tiny magnet .Example- Solenoid.Hence Electromagnetic induction and electromagnetism can be defined.
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A rubber rod rubbed with fur acquires a charge of -4,8×10(-9)C. What is the charge on the fur? How much mass is transferred to rod?
Visible light is a range of _____ energy EM waves in the electromagnetic spectrum that the human eye can see. A. zero B. high C. low D. medium
The visible light falls into the measure of low energy range in the electromagnetic spectrum.
Answer: Option C
Explanation:
The visible light is one of the 7 kind of electromagnetic spectrum that we know. Of those 7 kind, the visible light falls in between of the electromagnetic spectrum according to the wavelength of the light.
The visible light consists of VIBGYOR where the red has the 1.8 eV of the energy with violet to have around 3.4 eV. Therefore the correct answer is low.
Cognitive changes that accompany depression include
That is correct. Cognitive changes that accompany depression can include: Concentration, Memory, Decision-Making, Slowed Cognitive Processing, Negative Cognitive Bias, Rumination, Reduced Attention to Detail, Forgetfulness, Information Processing, Executive Function Impairment.
Difficulties in Concentration: People with depression often struggle to concentrate or focus on tasks, making it challenging to stay attentive and productive.
Memory Problems: Depressed individuals may experience difficulties with memory, both short-term and long-term, leading to forgetfulness and trouble recalling important information.
Impaired Decision-Making: Depression can affect a person's ability to make decisions, leading to indecisiveness, second-guessing, and avoidance of making choices.
Slowed Cognitive Processing: Cognitive processing speed may be reduced in individuals with depression, resulting in delayed responses and slower information processing.
Negative Cognitive Bias: Depression can lead to a negative cognitive bias, causing individuals to interpret situations in a pessimistic and negative manner, reinforcing feelings of hopelessness.
Rumination: Depressed individuals may engage in rumination, which involves obsessively dwelling on negative thoughts and feelings without finding resolution, leading to a cycle of negative thinking.
Reduced Attention to Detail: Depression can lead to a decreased ability to pay attention to details, impacting work, studies, and daily activities.
Forgetfulness: Depressed individuals may experience forgetfulness, leading to difficulties in remembering appointments, tasks, and important events.
Difficulty Processing Information: Depression may affect a person's ability to process and comprehend new information, making it challenging to learn and adapt.
Executive Function Impairment: Executive functions, such as planning, organization, and problem-solving, may be impaired by depression, making it difficult to manage daily responsibilities.
It's essential to remember that not everyone with depression will experience all of these cognitive changes, and the severity of these symptoms can vary from person to person. Seeking professional help and treatment for depression is crucial to address both the emotional and cognitive aspects of the condition. Early intervention can lead to better management of depression and its cognitive effects.
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Complete question:- Cognitive changes that accompany depression include difficulties in concentration, memory problems, impaired decision-making, slowed cognitive processing, negative cognitive bias, rumination, reduced attention to detail, forgetfulness, difficulty processing information, and executive function impairment.
According to the electromagnetic spectrum, Gamma rays have the slowest wave length. Therefore, Gamma rays have _______frequency.
A). a random
B). the lowest
C). the highest
D). an undetermined
Answer:
A. the highest
According to the "Future Potential Source #2: Wind" article, what natural resource does wind power free up
what the maximum age human have?
depends how healthy u r, so if u r an average person with average health, then prob between the ages of 70 to 90
Which does not describe a physical change happening to water?
A physical change in water does not include breaking chemical bonds to form new substances. Therefore, the correct answer is the option that describes a chemical change, such as water reacting with another substance to form a different compound. For instance, water does not undergo a physical change when it reacts with sulfur dioxide to form sulfuric acid; this is a chemical change.
Physical changes are changes in the state or phase of a substance that do not involve altering the chemical composition. Examples of physical changes in water include melting (solid to liquid), freezing (liquid to solid), evaporation (liquid to gas), condensation (change from gas to liquid), and sublimation (solid to gas without becoming liquid). A charged atom is known as an ion. The term used to describe the mineral content of water is hardness. The gas that forms sulfuric acid when it reacts with water is sulfur dioxide. These concepts are fundamental in understanding the physical and chemical properties of substances, especially water, which is vital in chemistry and environmental science.
A small 22 kilogram canoe is floating downriver at a speed of 2 m/s. What is the canoe's kinetic energy
Permafrost thaws only briefly in the summer. t o f brainliest
False... (Perma = Permanent = never thaws)
Which statement about energy generated from wind is true?
A. Wind is free "fuel," and government taxes on its use are lower than those on fossil fuel are
B. Wind power is abundant everywhere, and battery storage of excess power is inexpensive.
C. Wind power uses more water than coal power plants, but it is a far safer power source for wildlife.
D. Wind power gives off no greenhouse gases, but some people feel it spoils the view of the landscape.
The true statement about wind energy is "wind power gives off no greenhouse gases, but some people feel it spoils the view of the landscape".
Renewable energiesRenewable energies are energy sources that do not emit carbon dioxide or other greenhouse gases. They help in lowering carbon foot-print, since they do not emit carbon dioxide gases.
Examples of renewable energiesWind energySolar energyHydro-electric energy, etcThus, the true statement about wind energy is "wind power gives off no greenhouse gases, but some people feel it spoils the view of the landscape".
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During most of a cell’s life cycle, DNA is found in a mass of loose strands called?
Ben walks 500 meters from his house to the corner store. He then walks back toward his house, but continues 200 meters past his house to talk to a neighbor. It takes Ben 17 minutes from the time he leaves his house until he stops to talk to his neighbor. What is Ben’s average velocity?
Answer:
0.196 m/s
Explanation:
Average displacement is defined as the total displacement covered to the total time taken.
Total displacement = 500 - 500 - 200 = - 200 m
Total time taken = 17 minutes = 17 x 60 = 1020 second
So, Average velocity = 200 / 1020 = 0.196 m/s (magnitude only)
Answer:
Talking Ben is lazy so he would have gotten to the corner store on a scooter because hes to fat of a dog and he probley felt lazy and tired after going the the store and he probley sat back on his big fat red chair and burped his head off.
What factors affect the frictional force between objects ?
Final answer:
The factors that affect the frictional force between objects include the roughness of the surfaces, adhesive forces between molecules, and the normal force pushing the objects together.
Explanation:
In physics, several factors affect the frictional force between objects. One factor is the roughness of the surfaces in contact. If the surfaces have more irregularities or peaks, more force is required to set the object in motion and maintain its motion. Another factor is the attractive forces between molecules making up the two objects. These adhesive forces depend on the substances the surfaces are made of, which explains why rubber-soled shoes slip less than those with leather soles. Finally, the normal force pushing the systems together also affects friction. Friction is proportional to the normal force.
This law states that oppositely charged objects will exert an attractive force on each other while two objects that have like charges will repel each other. The attractive force varies with the size of the charges as well as the distance between them.
Answer:
Its Law of attraction
Explanation:
what is a homogenous mixture
Which of the following best illustrates a use of friction in the transportation industry? A. When a passenger jet burns fuel and shoots exhaust out its back end, the jet responds by moving forward. B. When a locomotive's brakes are applied to train tracks, the force between the brakes and the tracks causes the locomotive to slow down. C. When a ship is launched out to sea, the downward force of the ship onto the water is balanced by the water's upward force onto the ship. D. When a driver applies a force to a car's accelerator pedal, the car responds by traveling at a faster speed.
Answer:
b
Explanation:
25 POINTS
I need a DETAILED ANSWER explaining WHY you wrote it please!!
When you go to the movies, a strong light shines through the film and then through one or more lenses. The image you see on the screen is much larger than the one on the film.
What kind of image are you looking at on the movie screen?
Answer:
Explanation:
The real image is always inverted and can be obtained on a screen in this mode.
On the cinema screen, it now appears normal to our eyes.
Condensed light from the condenser goes through the film forming rays which are then passed through a series of lenses which spread them out and focus them on the screen.
The real image is what now shows on the screen.
A piano tuner strikes a tuning fork at the same time he strikes a piano key with a note of a similar pitch. If he hears 3 beats per second, and the tuning fork produces a standard 440 Hz tone. Then what was the frequency produced by the struck piano string? a 434Hz or 446Hz b 437 Hz c 437Hz or 443 Hz d 443 Hz
PLZ HELP!!!
*best answer gets brainliest*
How does changing the lengthy but not the height of an inclined plane affect the work done to lift a load? PLZ HELP ME NOW'
Answer: Work Done would remain same.
Let us assume that the velocity is constant while taking the load up the inclined plane. Then, the kinetic energy would remain the same. This is because kinetic energy is dependent on velocity [tex](K.E.=\frac{1}{2}mv^2)[/tex]. If that is constant, the kinetic energy would remain same. The potential energy is dependent on the height[tex](P.E.=mgh)[/tex]. If the height is changed, then potential energy varies. In the question, it is mentioned that without changing the height, the length of the inclined plane is changed. Therefore, the potential energy would be same as before.
We know, work done is equal to potential energy plus kinetic energy. Since there is no change in any of these, the required work done would not change.
Koala bears can eat only certain kind of Australian eucalyptus leaves.koalas are considered
Answer:
a specialized species
Explanation:
Measuring the Orbital Speeds of Planets
Introduction
A Boeing 747 can fly 624 miles per hour. That’s pretty fast! Right now, Earth and other objects in the
solar system are orbiting the Sun, but how fast are these objects moving? In this assignment, you will
calculate the orbital speeds of objects in our solar system.
Part A: Planetary Periods
In the 1600s, Johannes Kepler discovered three laws that govern the motion of objects around the sun.
Kepler’s first law explains that objects travel in an elliptical, or oval-shaped, path around the sun.
Kepler’s second law explains that an object travels faster in its orbit when it is closer to the Sun and
slower in its orbit when it is farther away. In this activity, you will investigate Kepler’s third law: the
relationship between an object’s distance from the sun and the time it takes the object to complete an
orbit around the sun.
Access the Gizmo from within today's lesson. The exploration guide found within this simulation will
help you work through the Gizmo. Click on the Lesson Materials link, which appears on the top left
corner of the screen once you enter the simulation, to access the student exploration sheet. Use it as
you work through Activity C and answer all parts.
Part B: Calculating Orbital Speed
Every object moves at a different average speed in its orbit around the Sun. In this activity, you will use
data collected from Part A to calculate the average orbital speeds of each planet and of Pluto.
1. Recall that the path an object takes around the Sun is an ellipse, and not a circle. However, to
approximate the circumference, or length, of each orbit, you will treat the orbits as circles. Go
back to your notes in your student exploration sheet from Part A. Using the mean orbital radius
(R) that you recorded, calculate the circumference of each planet’s orbit and record it in the
table below. Use the following formula to calculate the circumference:
Circumference 2 = π r
2. Using the periods you recorded in your student exploration sheet and the circumference of orbit
that you just calculated, calculate the average orbital speed of each planet and record it in the
table below. Use the following formula to calculate speed:
Distance Circumference Average Orbital Speed Time Period = =
The units of your answer will be in AU/year.
3. To give you a better perspective of how fast these orbital speeds really are, convert the orbital
speeds you just calculated from AU/year to miles/hour. 1 AU/year = 10,604 miles/hour. Record
your answers in the table below.
Table
Object
Mean
orbital
radius (AU)
(copy from
#6 in part A)
Circumference of
Orbit (AU)
Period
(Earth
Years)
(copy
from #6
in part
A)
Orbital Speed
(AU/year)
Orbital Speed
(miles/hour)
Mercury
Venus
Earth
Mars
Jupiter
Saturn
Uranus
Neptune
Pluto
Drawing Conclusions
4. Which planet takes the longest amount of time to travel once around its orbit? Which planet
takes the shortest amount of time?
5. How does an increase in orbital radius affect average orbital speed?
Extension
perihelion
In astronomy, the term refers to the point in the orbit of an asteroid, comet, or planet at
which it is closest to the sun. Aphelion refers to the point at which the object is furthest away from the
sun. Research facts about the dwarf planet Ceres. Calculate the average orbital speed of Ceres in
miles/hour when it is closest to the sun and when it is farthest away.
Kepler's third law allows finding the answers for the orbital speed of the planets are:
The speed decreases as we move away from the Sun, the values are in the third column of the table. The fastest planet is Mercury and the slowest planet is Pluto.
Kepler measured and analyzed the astronomical data of him and his tutor Brake, finding mathematical relationships that describe the movement of the planet, they are called Kepler's laws
1. The orbits are ellipses
2. A vector from the sun to the planet travels equal areas in equal times
3. A relationship between the period and the semi-major axis of the orbit.
Kepler's third law is an application of Newton's second law to the motion of the planets around the sun.
Newton's second law establishes a relationship between force and the product of mass and acceleration of the object; in this case the force is the gravitational attractive force
F = m a
F = [tex]G \frac{M m}{r^2}[/tex]
Wher M y m are sum and planet mass, r is the distance ang G constnate universal gravitation
They indicate that we consider the orbits as circular, in this case the acceleration is centripetal
a = [tex]\frac{v^2}{r}[/tex]
Let's substitute
[tex]G \frac{M m}{r^2} = m \frac{ v^2}{r}[/tex]
[tex]v = \sqrt{ \frac{GM }{r} }[/tex] (1)
The modulus of velocity (speed) is constant so we can use the uniform motion ratio
v = [tex]\frac{\Delta x}{t}[/tex]
For a complete orbit, the distance traveled is the length of the circle and the time is called the period.
Δx = 2π r
we substitute
[tex]\frac{G M}{r} = \frac{4 \pi^2 r^2 }{T^2}[/tex]
T² = ( [tex]\frac{4\pi ^2 }{GM}[/tex]) r³
They ask to calculate the orbital velocity we can use the relation 1
v = [tex]\frac{\sqrt{GM }}{ \sqrt{r} }[/tex]
Let's find the value of the constant
[tex]\sqrt{GM}[/tex] = [tex]\sqrt{6.67 \ 10^{-11} \ 1.991 \ 10^{30}}[/tex]
[tex]\sqrt{GM} = 1.15 \ 10^{10}[/tex]
In the table we have the tabulated values for the radii of the orbits of the planets
planet radius orbit (m) velocity (m/s)
Mercury 5.79 10¹⁰ 4.779 10⁴
Venus 1.08 10¹¹ 3.499 10⁴
Land 1,496 10¹¹ 2,973 10⁴
Mars 2.28 10¹¹ 2.408 10⁴
Jupiter 7.78 10¹¹ 1.304 10⁴
Saturn 1.43 10¹² 9.62 10³
Uranus 2.87 10¹² 6.79 10³
Neptune 4.50 10¹² 5.42 10³
Pluto 5.91 10¹² 4.73 10³
We calculate the speed of some as an example and the others are in the third column of the table
Mercury
v = [tex]\frac{1.15 \ 10^{10}}{\sqrt{5.79 \ 10^{10}} }[/tex]
v = 4.779 10⁴ m / s
Venus
v = [tex]\frac{1.15 \ 10^{10}}{\sqrt{1.08 \ 10^{11}} }[/tex]
v = 3,499 10⁴ m / s
They ask to know the planet that has maximum and minimum orbital speed.
After reviewing the calculations, and observed the table, Mercury has the highest speed and Pluto is the one with the lowest orbital speed.
When examining the expression the velocity is inversely proportional to the square root of the radius of the orbit
The radius of the orbit of Ceres is r = 2.766 ua ( [tex]\frac{1.49 \ 10^{11} m}{1 ua}[/tex]) = 4.11 10¹¹ m
the orbital velocity of Ceres is
v = [tex]\frac{1.15 \ 10^{10}}{\sqrt{4.11 \ 10^{11}} }[/tex]
v = 1.79 10⁴ m / s
those that correspond to a speed between Mars and Jupiter
In conclusion using Kepler's third law we can find the answers for the orbital speed of the planets are:
The speed decreases as we move away from the Sun, the values are in the third column of the table. The fastest planet is Mercury and the slowest planet is Pluto.
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Cell theory was discovered and advanced because of the development of which instrument?
A) telescope
B) gyroscope
C) light microscope
D) electron microscope
Answer:
C
Explanation:
Just did it
if you wanted to slow evaporation from a pot of coffee which of the following achieve this goal
Covering the coffee pot, lowering temperature, minimising surface area, utilising a thermal coffee pot, humidity control and limiting exposure prevent coffee evaporation and maintain flavour and warmth.
There are numerous ways to reduce coffee evaporation:
Evaporation can be reduced by covering the coffee pot. Water vapour molecules cannot escape via the lid. This prolongs the coffee's flavour and heat.
Lowering Temperature: Evaporation rates rise with temperature. Reduce coffee temperature to slow evaporation. For instance, you can put the coffee in an insulated container or let it cool down before serving. Be careful not to let it cool too much, as it may impair the taste.
Reduce Surface Area: Move the coffee to a container with less air exposure if possible. For instance, switching coffee from a pot with a large aperture to a thermal coffee pot with a narrower neck will reduce evaporation.
Use a Thermal Carafe: Thermal carafes keep hot beverages warm without direct heat. Heat loss and evaporation are reduced by their insulation.
Humidity Control: Evaporation rates depend on humidity. Dry air evaporates faster. By slowing evaporation, a humidifier may adjust indoor humidity.
Limit Exposure: Keep the coffee pot out of the air as much as possible. Return the pot to its covered position after pouring only what you need into your cup.
These strategies can reduce evaporation from a pot of coffee, maintaining its flavour and warmth for a better drinking experience.
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