Answer:
D. Magnetic and electrical forces are similar because they are both related to the interactions between charged particles.
Explanation:
When charge particles are placed near to each other then the two charges will attract or repel each other by electrostatic force given by
[tex]F = \frac{kq_1q_2}{r^2}[/tex]
while if charge particles are moving with respect to each other then in that case the magnetic field produces by the two moving charges will exert force on the two charges.
This magnetic force on moving charge is given as
[tex]F = qvB[/tex]
now here we can say that both electrostatic force and magnetic force are related to charge particles so these two forces are similar to each other
so correct answer will be
D. Magnetic and electrical forces are similar because they are both related to the interactions between charged particles.
Why is the transverse spatial extent of a photon proportional to its wavelength which is a longitudinal quantity?
Piece of cake
Chocolate cake
In quantum mechanics, the uncertainty principle also known as "Heisenberg's uncertainty principle" is any of a variety of mathematical inequalities, asserting a fundamental limit to the precision with certain pairs of physical properties of a particle known as complimentary variables, such as position X and momentum P can be known.
Which of these statements best describes the difference between electromagnetic and gravitational forces in the solar system?
a. Electromagnetic forces have a shorter range than gravitational forces.
b. Electromagnetic forces are stronger than gravitational forces.
c. Electromagnetic forces are only repulsive but gravitational forces are both attractive and repulsive.
d. Electromagnetic forces are only attractive but gravitational forces are both attractive and repulsive.
Answer:
Electromagnetic forces are stronger than gravitational forces.
Explanation:
Electromagnetic and gravitational forces both are fundamental forces present in nature. The force that exists between the charged particles are electromagnetic forces while the force that exists between two objects in the universe is called gravitational force.
The one of the difference between these two forces is that the gravitational force is always attractive while the electromagnetic force can be attractive or repulsive.
Electromagnetic forces are stronger than gravitational forces. It is approximate 10³⁹ times stronger than gravitational force. Hence, the correct option is (b).
When you make a cell phone call, which type of electromagnetic wave is most likely transmitting the signal?
microwaves
A microwave is an electromagnetic wave with a wavelength in the range 0.001–0.3 m, shorter than a normal radio wave but longer than an infrared wave.
A box is being pulled by two ropes. Eduardo pulls to the left with a force of 500 N, and Clara pulls to the right with a force of 200 N. The box moves because of the two forces applied to it. Leon records the forces and direction of the forces acting on the box in his lab notebook. In the table, which force has the wrong direction?
Tension by Eduardo
Tension by Clara
Kinetic friction
Gravity
Answer:
kinetic friction
Explanation:
Why are chemicals and hot objects never placed directly on the balance pan?
Final answer:
To prevent damage to the balance and ensure accurate measurements, hot objects and chemicals are not placed directly on the balance pan but rather in appropriate containers or on heat-resistant mats.
Explanation:
Chemicals and hot objects are never placed directly on the balance pan because it can cause damage to the balance and lead to inaccurate measurements. Such items can affect the balance's mechanisms and result in erroneous readings. Hot objects can also pose a safety hazard and may harm the operator. Additionally, they might leave residue or cause chemical reactions that could contaminate the balance, further skewing future measurements. Therefore, it is essential to use appropriate containers or heat-resistant mats when weighing hot or chemically active specimens on a double-pan mechanical balance.
A certain car is capable of accelerating at a rate of 10.60 m/s 2 . how long does it take for this car to go from a speed of 55 mi/h to a speed of 60 mi/h
Final answer:
To calculate the time required for a car to accelerate from 55 mi/h to 60 mi/h with an acceleration of 10.60 m/s², convert the speeds to m/s, then use the formula Δt = (ο - νi) / a to find that it takes approximately 0.2106 seconds.
Explanation:
The question involves calculating the time it takes for a car to accelerate from 55 miles per hour (mi/h) to 60 miles per hour (mi/h) given an acceleration rate of 10.60 meters per second squared (m/s2). First, convert the speeds from miles per hour to meters per second. One mile per hour is approximately 0.44704 meters per second. Therefore, 55 mi/h is about 24.5872 m/s, and 60 mi/h is about 26.8224 m/s.
To find the time (Δt) taken to accelerate from the initial speed (νi) to the final speed (ο), one can use the formula Δt = (ο - νi) / a, where a is the acceleration. Plugging in the given values, Δt = (26.8224 m/s - 24.5872 m/s) / 10.60 m/s2 = 0.2106 seconds. Therefore, it takes approximately 0.2106 seconds for the car to accelerate from 55 to 60 miles per hour.
If a tank filled with water contains a block and the height of the water above point A within the block is 0.6 meter, what's the pressure at point A? A. 7.84 kPa B. 3.85 kPa C. 9.80 kPa D. 5.88 kPa
If a tank filled with water contains a block and the height of the water above point A within the block, then the pressure will be equal to 5.88 Kpa. Hence, option D is correct.
What is Pressure?In the natural sciences, pressure is defined as the vertical unit area of force or even the strain at a particular location inside a confined fluid. The force multiplied by the area throughout which it is exerted, and one pound per square inch, determines the pressure that a 42-pound box with an 84-square-inch bottom will impose on a surface.
Atmospheric pressure, which is at sea level is roughly 15 pounds per square inch, is the amount of weight that the atmosphere exerts on each unit area of the Earth's surface.
As per the given information in the question,
ρ = 1000 kg/m³
g = 9.8 m/s²
h = 0.6 m
Use the formula of pressure,
p = ρ × g × h
p = 1000 × 9.8 × 0.6
p = 5880 Pa or,
p = 5.88 Kpa
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Drive at a speed that is _____ and _______ at all times. this means showings careful or ______ judgment.
A kite suspended in the sky is flowing back and forth. Which type of friction is being described?
Answer:
C.) Fluid Friction.
Explanation:
I had this question.
An electrical motor spins at a constant 2035 rpm. if the armature radius is 5.862 cm, what is the acceleration of the edge of the rotor?
The acceleration at the edge of the rotor in the electrical motor spinning at a constant 2035 rpm with an armature radius of 5.862 cm is approximately 267476.4 m/s², found using the principles of centripetal acceleration in physics.
Explanation:To solve this question, we first need to convert the given motor speed from revolutions per minute (rpm) to radians per second, which is the SI unit for angular velocity. This is done by multiplying by 2π, which is the radian equivalent of one revolution, and dividing by 60, the number of seconds in a minute. In this case, our conversion gives us a value for the angular velocity ω of approximately 213.2 rad/s.
We then use the formula for centripetal acceleration: ac = rω². Here, r is the radius of the armature (0.05862 meters using SI units), and ω is the angular velocity we converted earlier. Computing these, we find the centripetal acceleration ac to be around 267476.4 m/s².
Therefore, the acceleration at the edge of the rotor in the electrical motor spinning at a constant 2035 rpm with an armature radius of 5.862 cm is approximately 267476.4 m/s².
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Which scientist first proposed physical laws to mathematically describe the effect of forces on the motions of bodies?
What is the average rate of formation of br2?
A particular wave can be described as transverse and self-propagating. What type of wave could it be?
A sound wave
A seismic wave
An ocean wave
A radio wave
Answer:
A radio wave
Explanation:
Self propagating waves are those type of waves in which wave will induce the effect of by its own components.
One of the best example for this is Electromagnetic waves.
In electromagnetic waves electric field components and magnetic field components will oscillate perpendicular to each other and they both are perpendicular to the direction of propagation of wave also.
So here the disturbance due to electric field and magnetic field is since perpendicular to wave propagation so it is known as transverse wave.
So here we can say that correct answer must be an electromagnetic type of wave
so it must be
A Radio Wave.
A red apple will appear black when illuminated with
A packaging company purchases corrugated cardboard boxes in which to pack its goods. The boxes are not made up when they are delivered, but are flat,A bundle of these boxes measures 0.60 m x 0.50 m x 0.20 m and has a
weight of 72 N. Calculate the pressure exerted by the cardboard boxes
To calculate the pressure exerted by cardboard boxes, divide the force due to gravity (weight) by the area over which it is applied. Using the given weight of 72 N and the calculated base area of 0.30 m², the pressure exerted by the boxes can be determined.
Explanation:The question relates to calculating the pressure exerted by a stack of corrugated cardboard boxes on a surface. Pressure is defined as the force applied per unit area. The formula to calculate pressure (P) is P = F / A, where F is the force in newtons (N) and A is the area in square meters (m²). Given that the weight of the boxes is 72 N (which is the force due to gravity acting on them) and the base area of the boxes is calculated from the provided dimensions (0.60 m x 0.50 m = 0.30 m²), the pressure exerted can be calculated by dividing the force by the area over which it is applied.
To find the pressure, we thus use: P = 72 N / 0.30 m². Executing this calculation provides the pressure exerted by the cardboard boxes on the surface they are lying on.
A silica-rich igneous rock that has large crystals and makes up much of the continental crust is ________
Final answer:
Granite is a silica-rich igneous rock with large crystals, playing a significant role in the composition of the continental crust due to its quartz and feldspar content. It is less dense than the oceanic crust, contributing to the elevation of continental crust.
Explanation:
A silica-rich igneous rock that has large crystals and makes up much of the continental crust is granite. Granite is a coarse-grained, felsic, intrusive rock, characterized by the presence of quartz, which indicates its silica-rich nature. Additionally, granite commonly contains large amounts of salmon pink potassium feldspar and white plagioclase crystals visible cleavage planes, making it a good approximation of the continental crust in terms of density and composition.
The composition of continental crust largely consists of various types of igneous, metamorphic, and sedimentary rocks, with granite playing a significant role due to its less dense characteristics compared to the mafic rocks of the oceanic crust. This relatively low density contributes to the continental crust rising higher on the mantle compared to the oceanic crust. Furthermore, quartz and feldspar, significant components of granite, are the two most abundant minerals in the continental crust, emphasizing granite's fundamental role in the structure of the Earth's crust.
If 20 beats are produced within a single second, which of the following frequencies could possibly be held by two sound waves traveling through a medium along a common path at the same time
A. 38 Hz and 63 Hz
B. 18 Hz and 26 Hz
C. 47 Hz and 55 Hz
D. 22 Hz and 42 Hz
The correct choice is
D. 22 Hz and 42 Hz.
In fact, the beat frequency is given by the difference between the frequencies of the two waves:
[tex] f_B = |f_1 -f_2| [/tex]
In this problem, the beat frequency is [tex] f_B=20 Hz [/tex], therefore the only pair of frequencies that gives a difference equal to 20 Hz is
D. 22 Hz and 42 Hz.
An important part of developing motivation includes understanding that motivation is influenced by your _____.
the answer is positive mindset : )
The average adult heart pumps about 84./mls of blood at 72 beats per minute. suppose you need to calculate how long it would take the average heart to circulate 6600.ml of blood.
The heart takes [tex]\boxed{79{\text{ s}}}[/tex] to circulate [tex]6600{\text{ mL}}[/tex] of blood.
Explanation:
The average rate of blood pumping by adult heart at rate of [tex]72[/tex] beats per minute is [tex]84{\text{ }}{{{\text{mL}}}\mathord{\left/{\vphantom{{{\text{mL}}}{\text{s}}}}\right.\kern-\nulldelimiterspace}{\text{s}}}[/tex] .
Our aim is to obtain the time required by heart to circulate [tex]6600{\text{ mL}}[/tex] of blood.
The rate [tex]84{\text{ }}{{{\text{mL}}}\mathord{\left/{\vphantom{{{\text{mL}}}{\text{s}}}}\right.\kern-\nulldelimiterspace}{\text{s}}}[/tex] can be referred as the adult heart pumps [tex]84[/tex] milliliters of blood in one second at the rate of [tex]72[/tex] beats per minute.
Consider [tex]t[/tex] be the time required for heart to pump [tex]6600{\text{ mL}}[/tex] blood.
Since, in one second the heart pumps [tex]84{\text{ }}{{{\text{mL}}}\mathord{\left/{\vphantom{{{\text{mL}}}{\text{s}}}}\right.\kern-\nulldelimiterspace}{\text{s}}}[/tex] and this can be written as,
[tex]84{\text{ mL}}\Rightarrow 1{\text{ second}}[/tex]
In [tex]t[/tex] second the heart will pump [tex]6600{\text{ mL}}[/tex] of blood and this can be written as,
[tex]6600{\text{ mL}}\Rightarrow t{\text{ second}}[/tex]
The value of [tex]t[/tex] is calculated as shown below.
[tex]\begin{aligned}t&=\frac{{6600{\text{ mL}}\times 1{\text{ second}}}}{{84{\text{ mL}}}}\\&=\frac{{6600}}{{84}}{\text{ seconds}}\\&=78.57{\text{ seconds}}\\&\approx 79{\text{ s}}\\\end{aligned}[/tex]
Therefore, it takes heart to circulate [tex]6600{\text{ mL}}[/tex] of blood in approximately [tex]79{\text{ s}}[/tex].
Since, blood can flow so it is called as fluids. Fluid has no fixed shape and having definite volume.
The expression for density for any fluid can be written as,
[tex]\rho=\frac{m}{V}[/tex]
Here, [tex]{{\rho }}[/tex] is density, [tex]m[/tex] is the mass of the fluid and [tex]V[/tex] is the volume of fluid.
Thus, the heart takes [tex]\boxed{79{\text{ s}}}[/tex] to circulate [tex]6600{\text{ mL}}[/tex] of blood.
Learn More:
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2. Gravity https://brainly.com/question/1675037
3. Energy https://brainly.com/question/1807873
Answer Details:
Grade: High School
Subject: Physics
Chapter: Fluids
Keywords:
Heart, pumps, 84 mL/s, blood, 72 beats, minute, long, average , circulate, 79 s, 6600 mL, fluids, property, calculate.
The moon has a mass of 7.35 e 22 kg and is located 3.84 e 8 meters from the earth. if ellen, an earthling, has a mass of 47 kg, what is the gravitational force between ellen and the moon?
Answer:
The gragitacional force is 1.56 10⁻³ Kg
Explanation:
The gravitational force between two bodies is proportional to their mass and inversely proportional to the square of the distance between them, is described by the equation
F = G m₁ m₂ / r²
With G being the universal gravitation constant with a value of 6.67 10⁻¹¹ Nm²/Kg², as they give us the mass of the bodies and the distance between them, we can calculate the force.
F = 6.67 10⁻¹¹ 47 7.35 10²² / (3.84 10⁸)²
F = 1.56 10⁻³ Kg
lo cuales muy pequeño
The police department is very proud of their new police cars. They announced that they are able to go from a stopped position to 80 miles per hour in 6 seconds. They are describing their cars' velocity. direction. speed. acceleration.
"how do the fundamental laws of physics make manifest that space has 3 dimensions?"
A car travels south at 30 m/s for 5 minutes. What is its velocity
Answer:
Explanation:
Velocity = 30 (-j) m/s
Displacement = velocity x time = 30 x 5 x 60 = 9000 m South = - 9000 j m
The velocity of the car traveling south for 5 minutes is 30 m/s is 9000 m and acceleration of the car is 0.1 m/s² (if its direction is changing).
What is velocity ?Velocity of an object is the distance travelled by the object per unit time. Velocity is a vector quantity having both direction and magnitude. It is the ratio of distance to the time taken for travel.
Given that,
velocity v = 30 m/s
time t = 5 minutes
t = 5 × 60 = 300 seconds
Then, distance travelled = v × t
d = 300 s × 30 m/s =9000 m
Acceleration of the object is the rate of change in its velocity. If the object is moving with constant speed and there is a change in direction there will be an acceleration.
a = v/t
a = 30 m/s/300 s = 0.1 m/s².
Therefore, the distance travelled by the car is 9000 m and its acceleration is 0.1 m/s².
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Your question is incomplete. But your complete question probably was:
A car travels south at 30 m/s for 5 minutes. What is distance of travel and acceleration ?
Argelia has a stack of schoolbooks sitting in the backseat of her car. When Argelia makes a sharp right turn, the books slide to the left of the seat until they come to a rest against the car door. Explain why this happens.
Answer:
The books slide to the left due to inertia, and then they come to a rest due to the force applied by the car door.
Explanation:
The entire motion of the books can be explained by using the first two laws of Newton:
- 1st Newton's law (also called Law of Inertia): an object at rest stays at rest and an object in motion stays in motion with constant velocity if no unbalanced forces act on it
- 2nd Newton's law: when an object is acted upon unbalanced forces, an acceleration is induced in the motion of the object, according to the equation
[tex]F=ma[/tex]
where F is the net force on the object, m is its mass and a is its acceleration.
Coming back to our problem:
- At the beginning, Argelia makes a sharp turn right. Due to the law of inertia, the books (which are not fixed to the car) continue their motion straight as it was before the curve: so, since the car is moving right, they appear to go the left of the car.
- When the books hit the car door, they stop moving due to the 2nd Newton's law: in fact, the car door applies an unbalanced force against the books, and as a result the books have a negative acceleration (=deceleration), so they slow down and eventually they stop.
The books moved due to the force that was applied and they came to rest due to inertia.
Inertia simply means the tendency to do nothing or to be able to remain unchanged. It is the resistance of any object to any change in the velocity of the object.
The books moved due to the force that was applied and they came to rest due to inertia. The book will be at rest as long as there's no force that acted on them.
In this case, the sharp turn of the car resulted in a force that acted on the car.
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A bowling ball weighs 7.26 kg and takes 3.64 seconds to travel the 19.2 m length of the bowling alley. assuming the velocity is constant, what is the kinetic energy of the bowling ball?
The kinetic energy of the bowling ball is 100.81 J.
Given data:
The mass of bowling ball is, m = 7.26 kg.
The time interval is, t = 3.64 s.
The length of path covered is, L = 19.2 m.
First obtain the speed of ball from the given equation,
[tex]v = \dfrac{L}{t}[/tex]
Here, v is the speed of ball.
Solving as,
[tex]v = \dfrac{19.2}{3.64}\\\\v=5.27 \;\rm m/s[/tex]
Now, the expression for the kinetic energy is,
[tex]KE = \dfrac{1}{2}mv^{2}[/tex]
Solve by substituting the values as,
[tex]KE = \dfrac{1}{2} \times 7.26 \times 5.27^{2}\\\\KE=100.81 \;\rm J[/tex]
Thus, we can conclude that the kinetic energy of the bowling ball is 100.81 J.
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The kinetic energy of the bowling ball is approximately 100.81 Joules, which is calculated using the mass of the ball, the distance it covers, and the time it takes to cover that distance with constant velocity.
The student is asking for the kinetic energy of a bowling ball that has a given mass and travels a certain distance in a specified time with constant velocity. To solve this, we must first calculate the velocity of the ball using distance and time, then use this velocity to determine the kinetic energy.
Step 1: Calculate the velocity.
Velocity (v) = Distance (d) / Time (t)
v = 19.2 m / 3.64 s
v = 5.27 m/s
Step 2: Calculate the kinetic energy (KE). The formula for KE is
[tex]KE = \frac{1}{2} X m X v^2\\KE = \frac{1}{2} X 7.26 \ kg X (5.27 \ m/s)^2\\KE = 100.81 \ Joules[/tex]
Therefore, the kinetic energy of the bowling ball is approximately 100.81 Joules.
Which classification scheme is based on the brightness of a star as it appears to you in the night sky?
If an object has a mass of 20 grams and a volume of 40 cm3, what is its density in g/cm3?
If an object has a mass of 20 grams its density in g/cm3 is [tex]0.5 g/cm^3[/tex]
What is density?The measure of how closely a material is packed together is called its density. The mass per unit volume is how it is defined. Density Formula: ρ = m/V, where ρ is the density, m is the object's mass, and V is its volume. Density Symbol:
[tex]density = \frac{mass}{volume}[/tex]
[tex]Density = \frac{20}{40}[/tex]
=[tex]0.5 g/cm^3[/tex]
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A thin film of oil (n = 1.27) is located on smooth, wet pavement. when viewed perpendicular to the pavement, the film reflects most strongly red light at 640 nm and reflects no blue light at 427 nm. how thick is the oil film?
The nature of a volcanic eruption is determined largely by the ________ of the magma.
Answer:
Chemistry
Explanation:
The composition of magma, the temperature of magma and the amount of dissolved gasses in the magma are all responsible for the nature of eruption.
Magma could be composed of dust, blocks, bombs, cinders and other gases.
The nature of eruption also depends on the temperature as magma could erupt at varying temperatures from 700[tex]^{2}[/tex]C to 1300[tex]^{2}[/tex]C and even at higher temperatures reaching 1600[tex]^{2}[/tex]C.
By definition, work is a force that's applied over a specific
a. weight.
b. period of time.
c. amount of horsepower.
d. distance.
the answer for this one will be D.