The brother on the outer edge of the merry-go-round experiences greater centripetal acceleration due to the larger radius of his circular path.
The brother riding on the outer edge of the merry-go-round will experience greater centripetal acceleration than his sister who is positioned closer to the center. This is because centripetal acceleration depends on both the angular velocity and the radius of the path of the moving object. Since both are riding on the same merry-go-round and thus have the same angular velocity, the one farther from the center (the brother) has a larger radius, and therefore a greater centripetal acceleration.
The density of silver is 10.5 g cm3. a piece of silver with a mass of 61.3 g would ovvupy a volume of ?
The volume of a piece of silver with a mass of 61.3g and a given density of 10.5 g/cm³ would be approximately 5.83 cm³.
Explanation:The subject is about density which is the ratio of the mass of a sample of the substance to its volume. The SI unit for density is the kilogram per cubic meter (kg/m³) or for many situations, the grams per cubic centimeter (g/cm³) for solids and liquids, and grams per liter (g/L) for gases.
Given the density (D) of silver as 10.5 g/cm³ and the mass (m) as 61.3 g, we can use the formula Density = mass/volume or rearranged to Volume = Mass/Density. After inserting the given values into the equation, we get that the Volume (V) would be approximately 5.83 cm³.
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A bat hits a ball; which has the greater acceleration, the bat or the ball?
Answer: The ball.
Explanation: Right before the impact, the bat will have a bigger acceleration than the ball (assuming that the ball is trowed softly), and after the impact, there will be some energy of the bat transferred to the ball. As the ball has a lot less mass than the bat, it is "easily" accelerated:
Remember that the second Newton's law says that:
F = m*a
So, after the impact, the ball has a greater acceleration than the bat (Also, if the bat had more acceleration than the ball, it will "push" the ball, but you can see that the ball "escapes" to the bat after the initial impact).
PART 2!! PLEASE HELP!!
1) which of the following wires would have the least resistance? (*=Degree)
A-An aluminum wire 20cm in diameter at 40* C
B-An aluminum wire 20cm in diameter at 60* C
C-An aluminum wire 40Cm in diameter at 40*C
D-An aluminum wire 40Cm in diameter at 60*C
---------------------------------------
2)A flashlight bulb with a potential difference of 4.5 V across it has a resistance of 8.0 ohms. How much current is in the bulb filament?
A-36 A
B-9.4 A
C-1.8 A
D-0.56 A
---------------------------------------
Answer:
Number 1 is C
Number 2 is D
.56 A
The voltage of electricity traveling away from a power plant is very high. How high may it be? Why is the voltage so high?
Which light packs the highest energy per photon? 1. infrared 2. red 3. blue 4. ultraviolet 5. green?
Ashkon throws a basketball across the court to his teammate. The ball has 57 J of potential energy and 61 J of kinetic energy. What is the total mechanical energy of the basketball?
The total mechanical energy of the ball is the sum of its potential energy U and its kinetic energy K, therefore:
E=U+K=57 J+61 J=118 J
so, the total mechanical energy of the basketball is 118 J.
what are some guidelines for using self-assessments?
Answer:
Few guidelines which are choosing for the personal self assessments, that work for your best and raise your health standards, instead of others doing this on the behalf of yours.
Explanation:
There are some guidelines which are discussed below for using self assessments.
The observer can learn to organize his learning autonomously.The observer can motivate himself in that way that will work for him.The observer should be aware of his motivational learning and can rely on that.He can re motivate himself again after knowing that his initial motivation is growing thin.He can motivate himself to learn something which are good for his personal growth and development.Quality tests, honesty, and goal are some guidelines for using self-assessments.
It can be beneficial to keep in mind the following rules when utilizing self-assessments:
Recognize the Goal: Self-assessments can be used to evaluate abilities, personality qualities, or emotional health. Understand the goal of your self-assessment and what you hope to achieve from it before you begin.
Quality test: Use tests that have been validated, trustworthy, and well-designed. Look for evaluations that have been created by reliable sources, such as renowned organizations or subject-matter experts.
Reflect Honestly: Go into self-evaluations with an open mind. Instead of responding the way you believe you should, give responses that reflect your actual thoughts, feelings, and actions.
Hence, quality tests, honesty, and goal are some guidelines for using self-assessments.
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During the Pleistocene, a land bridge connected Alaska and Asia. What could have caused this bridge to from? the ending of an ice age the beginning of an ice age the erosion of the Alaskan coastline the erosion of the Asian coastline
The correct answer is beginning of ice age.
During the time of ice age, the supply of water of locked in the ice of the glaciers.
The level of sea worldwide decreased and the land came out of the sea and joined the two continents.
The environment of the Bering bridge was very dried so it remained a dried and there were no glaciers during the whole ice age.
Earth is the third planet from the Sun. This placement most affects Earth's unique ____ and ____ conditions.
1. a. temperature
b. differentiation
c. gravity
d. moon
2. a. lithospheric
b. mantle
c. core
d. atmospheric
Which adaptation is likely to increase the chances of survival of an animal in a rainforest?
Capacity to glow in the dark to attract predators
Bright colors as camouflage while stalking prey
Green color so that it can photosynthesize using sunlight
Black-spotted skin coat as camouflage while stalking prey
Answer: Option D
Explanation: The rainforest is the place rich in diversity. There are different types of plants and animals in the rain forest.
The organism that is living their should have black spotted skin coat which can act as camouflage when the organism is stalking the prey.
So, the best adaption in the rain forest will be black spotted skin.
A hammer taps on the end of a 4.9 m long metal bar at room temperature. a microphone at the other end of the bar picks up two pulses of sound, one that travels through the metal and one that travels through the air. the pulses are separated in time by 10.4 ms. what is the speed of sound in this metal
Which of the following terms best describes air
A. Element
B. Compound
C. Mixture
D. None of the above
Final answer:
Air is best described as a homogeneous mixture. This classification indicates that air is composed of various gases such as nitrogen, oxygen, and other trace gases, mixed uniformly. It is neither an element nor a compound.
Explanation:
Air Composition Classification
When assessing the nature of air, the correct classification from the given options would be 'C. Mixture'. To be more specific, air is a homogeneous mixture made up of multiple substances, including primarily nitrogen and oxygen, as well as argon, carbon dioxide, and other trace gases, which are evenly distributed throughout the mixture. Air is not an element, because it consists of more than one kind of atom; it is not a compound, as its composition can vary and is not a single chemical substance with a fixed ratio of elements. Instead, air exemplifies a solution, which is a type of homogeneous mixture.
Examples of Elements, Compounds, and Mixtures
Salt is a compound (NaCl).
Pure water is a compound (H2O).
Soil is a heterogeneous mixture, composed of various organic and inorganic materials.
Salt water is a homogeneous mixture or a solution, where the salt is dissolved evenly in the water.
Pure air is a homogeneous mixture of gases.
Carbon dioxide (CO2) is a compound.
Gold is an element (Au).
Bronze is a metal alloy, a type of homogeneous mixture of copper and other metals like tin or aluminum.
A racing car is moving around the circular track of radius 300 meters shown above. at the instant when the car's velocity is directed due east, its acceleration is directed due south and has a magnitude of 3 meters per second squared. when viewed from above, the car is moving clockwise at 30 m/s clockwise at 10 m/s counterclockwise at 30 m/s counterclockwise at 10 m/s
Answer:
the car is moving clockwise at 30 m/s
Explanation:
For an object moving in circular motion:
- The velocity is always tangential to the circle
- The acceleration (centripetal acceleration) is towards the centre of the circle, so perpendicular to the velocity)
In this case, the velocity is directed due east, while the acceleration is directed due south: so the car is "curved towards south while moving", this means that the car is travelling clockwise.
Moreover, the centripetal acceleration is given by:
[tex]a=\frac{v^2}{r}[/tex]
where
a = 3 m/s^2 is the acceleration
v is the speed
r = 300 m is the radius of the track
Solving for v,
[tex]v=\sqrt{ar}=\sqrt{(3 m/s^2)(300 m)}=30 m/s[/tex]
So the answer is
the car is moving clockwise at 30 m/s
In a clockwise circular motion, when a car's velocity is east, its inward or centripetal acceleration is due south. Circular motion rules dictate this because acceleration is towards the centre. However, the car's speed can't be deduced from this data.
Explanation:The student's question pertains to the concept of circular motion dynamics, which is a topic in physics. The key is understanding that a car moving in circular motion always has an acceleration directed towards the center of the path, also known as centripetal acceleration. The direction of velocity, which is tangential to the path, continually changes due to this inward acceleration.
If we consider a car moving clockwise around a circular track when viewed from above - the east would be on its right and south would be below. In this scenario, when the car's velocity is directed due east, the centripetal acceleration (due to the car's need to change direction to stay on the circular path) will be facing due south.
Regarding the speed of the car, it can be moving either clockwise or counterclockwise at either 10 m/s or 30 m/s. However, this information cannot be determined from the acceleration data as there is no measure of the car's tangential acceleration, which is the acceleration that affects the car's speed.
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What should a sailboat operator do when approaching a PWC head-on
In accordance with the International Regulation for the prevention of collisions at sea:
1.- A sailing boat has a passing preference over a motorized boat, except when the motor boat is limited by its draft.
2.- The sailboat must maintain its course and speed.
3.- If it is evident that the PWC does not respond, the sailboat must sound the warning signal, and change its course to starboard.
4.- All actions must be taken as soon as possible.
5.- If a sailboat is using its engine, the situation changes, and in that case, both ships must alter to starboard.
When a sailboat operator approaches a PWC head-on, the operator should change course to starboard (right), while keeping the vessel at a safe speed and maintaining a proper observation to assess risk of collision.
Explanation:When a sailboat operator is approaching a PWC (Personal WaterCraft) head-on, the operator should follow rules regarding right of passage, which are set in place to minimize the risk of collision. These rules are part of the numerous international maritime navigation laws.
The primary method of avoiding collision is by steering to the right, or 'starboard', when it is safe to do so. The rule 'starboard to starboard' means that both vessels should deviate their course to starboard. This is akin to 'keep to your right' rule on the road.
However, before attempting any manoeuvre, it is crucial to maintain a safe speed and have a proper lookout for assessing risk of collision. One should use all available ways like sight, sound or radar to ascertain any risk.
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Lee pushes horizontally with a force of 75 n on a 36 kg mass for 10 m across a floor. calculate the amount of work lee did. answer in units of j.
The amount of work Lee did is 750 Joules.
Explanation:Work is calculated by multiplying the force exerted on an object by the distance it is moved. In this case, Lee exerts a horizontal force of 75 N on a 36 kg mass, moving it for a distance of 10 m. Therefore, the work done by Lee can be calculated as:
Work = Force × Distance
Work = 75 N × 10 m
Work = 750 J
So, the amount of work Lee did is 750 Joules.
Is water wet? I think it is but people think it isn’t
How much work can a 23,000 Watt car engine do in 35 seconds if it is 100% efficient?
Which satellite has the greatest gravitational force with Earth?
1. Earth and Satellite A
2. Earth and Satellite B
3. Earth and Satellite C
4. Earth and Satellite D
Satellite A has a mass (kg) of 375 and the distance from Earth (km) is 320.
Satellite B has a mass (kg) of 250 and the distance from Earth (km) is 320.
Satellite C has a mass (kg) of 50 and the distance from Earth (km) is 320.
Satellite D has a mass (kg) of 500 and the distance from Earth (km) is 320.
Answer:
Satellite D has a mass (kg) of 500 and the distance from Earth (km) is 320.
Explanation:
The universal law of gravitation states that the force between two objects in the universe is directly proportional to the product of their masses and inversely proportional to the square of the distance between them.
We have to choose the satellite having greatest gravitational force with earth. In all options the distance from the earth is same i.e. 320 km. So, we have to select the satellite having maximum mass because the mass of the earth is constant.
Hence, the correct option is (D) " Satellite D has a mass (kg) of 500 and the distance from Earth (km) is 320 ".
Answer: Option 4, the satellite D.
Explanation: The gravitational force between two objects is given by the formula:
[tex]F = G\frac{m1*m2}{r^2}[/tex]
where m1 and m2 are the masses of the objects, G is a constant, and r is the distance between both objects.
From this equation, you can see that the gravitational force between two objects increments when the masses of the objects increases, and when the distance between the object decreases.
You can see that all the options are at the same distance from the earth, 320km, then the only factor that changes is the mass of the satellite.
And, based on the previous, the satellite with more mass is the satellite that has the greatest gravitational force with the earth, and this would be the satellite D, with amas of 500kg.
When a boat moves through the water, the waves in front of the boat bunch up, while the waves behind the boat spread out. this is an example of?
Answer: Doppler Effect
Doppler Effect can be described as the change in wavelength of a wave like upward shift in frequency for an object whom is approaching and an apparent downward shift in frequency for observers from whom the source is receding. This effect can be observed when a boat moves through the water then the waves in front bunch up while the waves behind the boat spread out.
a student tests the second law of motion by accelerating a block of ice at a rate of 3.5 m/s squared. if the ice has a mass of 12.5 kg , what force must the student apply to the ice
To accelerate the block of ice at a rate of 3.5 m/s², the student must apply a force of 43.75 Newtons.
Explanation:To calculate the force required to accelerate the block of ice, we can use Newton's second law of motion, which states that F = ma, where F is the force, m is the mass, and a is the acceleration.
In this case, the mass of the block of ice is 12.5 kg and the acceleration is 3.5 m/s². Plugging these values into the equation, we get:
F = (12.5 kg) * (3.5 m/s²) = 43.75 N
Therefore, the student must apply a force of 43.75 Newtons to the ice in order to accelerate it at a rate of 3.5 m/s².
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Based on the concept of the wave-like nature of light, Huygens' theory of light __________ postulates that the more light was "bent" by a substance the slower it would move while traversing across that substance.
The correct answer is "refraction", I just answered it on usatestprep.
A 3.00 kg cart on a frictionless track is pulled by a string so that it accelerates at 2.00 m/s/s. what is the tension in the string
Answer: The tension in the string is 6 N
Explanation:
Tension is defined as the pulling force that is applied on a string, chain etc.. Force is also defined as the mass multiplied by the acceleration of the object.
Mathematically,
[tex]F=ma[/tex]
where,
F = tension or force exerted in the string
m = mass of the cart pulling the string = 3.00 kg
a = acceleration of the string = [tex]2.00m/s^2[/tex]
Putting values in above equation, we get:
[tex]F=3.00kg\times 2.00m/s^2\\\\F=6N[/tex]
Hence, the tension in the string is 6 N
if the mass of a moving object decreases from 100 grams to 25 grams, what happens to its momentum?
a. its reduced 1/4 of the original momentum
b. its reduced 1/2 of the original momentum
c. not affected by change in mass
d. becomes 4 times the orignal momentum
The correct answer is c. not affected by change in mass
The law of conservation of momentum states that, for an isolated object (=zero net external force acting on it), the momentum of the object is conserved.
As a result, if there are no external forces acting on the object in the problem, its momentum will not change even though its mass changes. In fact, the momentum is given by the product between mass and velocity:
[tex]p=mv[/tex]
therefore, when the mass of the object decreases by a factor of 4, the velocity will increase by a factor of 4, keeping the momentum of the object constant.
Momentum is reduced to one-quarter of its original value when the mass of an object decreases from 100 grams to 25 grams, assuming velocity remains constant. The correct answer is option 'a'.
Understanding Momentum and Mass
Momentum is defined as the product of an object's mass and its velocity, given by the formula: momentum = mass × velocity.
When the mass of a moving object decreases from 100 grams to 25 grams, while assuming the velocity remains constant, we can calculate the change in momentum as follows:
Initial momentum: [tex]mass_{initial} \times velocity = 100 grams \times velocity[/tex]Final momentum: [tex]mass_{final} \times velocity = 25 grams \times velocity[/tex]Therefore, the final momentum is one-quarter of the initial momentum because 25 grams is one-quarter of 100 grams.
If a substance is in the gas phase, which of qualities of the gas will stay constant?
volume
mass
shape
position of particles
Answer:
Mass is the right answer
Explanation:
Gas is a state of matter that has no fixed shape and no fixed volume. Gases have lower density than other states of matter, such as solids and liquids. There is a great deal of empty space between particles, which have a lot of kinetic energy. The particles move very fast and collide into one another, causing them to diffuse, or spread out, until they are evenly distributed throughout the volume of the container.
Therefore the only constant property about matter in a gas state is its mass!
which option is an example of a physical property?
A. boiling point
B. pH
C. toxicity
D. rusting ability
The correct answer would be A. boiling point. And the reason to that is because pH, toxicity, and rusting ability are all examples of chemical properties.
Answer:
boiling point
Explanation:
Physical property doesn't change the composition of the substance. Boiling point only change the matter, not the composition.
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Learning Properties of Matter Quiz Unit 2 Lesson 11 Grade 8
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Everything we know about stars comes from studying their _____.
mass
color
temperature
radiation/light
age
Everything we know about stars comes from studying their radiation/light. By measuring the wavelength or frequency of light coming from objects in the universe, we can learn something about their nature. Starts emit a range of wavelengths. The frequency of light is directly related to its color, so it follows that stars have different colors because they have different peak wavelengths of light.
what is the amount of a certain isotope that occurs in a natural sample of an element
Answer:Relative abundance.
Explanation:
Relative abundance is the percentage of a particular isotope that occur in nature.
The graph that BEST represents the speed of sound relative to the density of the medium it is traveling through is
A)
B)
C)
D)
Answer:if you're doing usatestprep the answer is B
Explanation:
The graph that BEST represents the speed of sound relative to the density of the medium it is travelling through is B.
What is speed of sound?Particle-to-particle interaction causes a pressure disturbance to propagate across a medium as a sound wave. In order to move energy through the medium, each disturbed particle exerts a force on the next neighbouring particle behind it. This causes that particle to become disturbed from rest.
A sound wave's speed is determined by how quickly the disturbance is transferred from particle to particle, much like any other wave. Speed is the amount of movement a disturbance makes per unit of time, whereas frequency is the number of vibrations a single particle makes per unit of time.
In the given four graph speed of sound versus density, in graph B there is linear variation. So graph B is best.
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If you have to apply 40n of force on a crowbar to lift a rock that weights 400n, what is the actual mechanical advantage of the crowbar
The actual mechanical advantage of the crowbar used to lift a 400N rock with a 40N effort is 10.
The actual mechanical advantage of a crowbar is calculated by dividing the load force by the effort force. In this case, if a 400N rock is lifted using a crowbar with an effort of 40N, the mechanic advantage is calculated as follows:
Actual Mechanical Advantage (AMA) = Load Force (N) / Effort Force (N)
AMA = 400N / 40N
AMA = 10
Therefore, the actual mechanical advantage of the crowbar is 10, which means that the force applied is multiplied by 10 times when lifting the rock.
In an electron cloud an element that is farther away from the nucleus has