WILL MARK BRAINLIEST!!
A truck of a mass of 2 tons is traveling north at a speed v=70 km/h collides with a car of mass of 1.2 tons moving south at an equal speed. After collision, both vehicles remain tangled together.
With what speed and in what direction does the wreckage move?
(Would love it if it's solved in the GUESS method, but if not it's okay!)
The final speed of the wreckage after the collision is 17.5 km/h north.
What is the final speed of the wreckage after the collision?
The final speed of the wreckage after the collision is calculated by applying the principle of conservation of linear momentum.
m₁u₁ + m₂u₂ = v ( m₁ + m₂ )
where;
m₁ is the mass of the truckm₂ is the mass of the caru₁ is the initial speed of the trucku₂ is the initial speed of the carv is their final speed after the collisionlet north be positive and let south be negative direction
The final speed is calculated as follows;
(2 x 70) - (1.2 x 70) = v ( 2 + 1.2 )
56 = 3.2v
v = 56/3.2
v = 17.5 km/h north
Learn more about linear momentum here: https://brainly.com/question/7538238
#SPJ1
A light ray is incident normally to the long face (the hypotenuse) of a 45°-45°-90° prism surrounded by air, as shown in the figure below. Calculate the minimum index of refraction of the prism for which the ray will totally internally reflect at each of the two sides making the right angle.
Previous question
The minimum index of refraction of the prism is 1.414.
What does light ray is incident mean?
Light ray incident is a term used to describe when a light ray strikes a surface. This can refer to light from any source, such as the sun, a light bulb, or a laser. When light rays are incident on a surface, they may be reflected, absorbed, or transmitted. The behavior of the light depends on the properties of the surface, such as its color, texture, and composition.
This double internal reflection requires that the angle of incidence (45º) at the 1st prism side is at least = critical angle. This reflected ray then meets the other prism side at the same angle of incidence (45º). so we only need to consider the first internal reflection.
Applying [ n sin i = constant ] to the prism-air boundary.
(np= ref.index for prism material, nₒ = ref.index for air =1.0 )
At a critical angle of incidence 45º, external angle = 90º
np sin 45 = nₒ sin90
np = nₒ sin90 / sin45=1 x 1 / 0.7071
np(min) = 1.414
Therefore, 1.414 is the minimum index of refraction of the prism.
To learn more about light ray is incident from the link
https://brainly.com/question/28745793
#SPJ4
The minimum index of refraction of the prism for which the ray will totally internally reflect at each of the two sides making the right angle is 1.414.
What does light ray is incident mean?
Light ray incident is a term used to describe when a light ray strikes a surface. This can refer to light from any source, such as the sun, a light bulb, or a laser. When light rays are incident on a surface, they may be reflected, absorbed, or transmitted. The behavior of the light depends on the properties of the surface, such as its color, texture, and composition.
This double internal reflection requires that the angle of incidence (45º) at the 1st prism side is at least = critical angle. This reflected ray then meets the other prism side at the same angle of incidence (45º). so we only need to consider the first internal reflection.
Applying [ n sin i = constant ] to the prism-air boundary.
(np= ref.index for prism material, nₒ = ref.index for air =1.0 )
At a critical angle of incidence 45º, external angle = 90º
np sin 45 = nₒ sin90
np = nₒ sin90 / sin45=1 x 1 / 0.7071
np(min) = 1.414
Therefore, 1.414 is the minimum index of refraction of the prism.
To learn more about light ray from the link
brainly.com/question/28745793
#SPJ4
The power P (watts) of an electric circuit is related to the circuit s resistance R (ohms) and current I (amperes) by the equation P=RI2.How are dP/dt, dR/dt, and dI/dt related if none of P, R, and I are constant?
Given the power PP of an electric circuit is related to the circuit's resistance RR and current II by the equation P = RI^2
we want to find dP/dt, dR/dt and dI/dt if none of P, R and I are constant:
P = RI^2 = dP/dt = R. 2I dI/dt+I^2dR/dt = dP/dt = 2RIdI/dt= I^2dR/dt.
At the point when an electric current courses through a bulb or any conveyor, the channel offers a check to the current and this obstacle is known as electrical resistance and is indicated by R. Each material has an electrical resistance and this is the motivation behind why conveyors give out heat when current goes through it
As per Ohm's law, there is a connection between the current moving through a guide and the likely distinction across it. It is given by,
V ∝ I V = IR
Where,
V is the potential contrast estimated across the guide (in volts)
I is the current through the guide (in amperes)
R is the consistent of proportionality called resistance (in ohms)
to know more about ohm's law click here:
https://brainly.com/question/14296509
#SPJ4
A positive charge and a negative charge held near each other are released. As they move, the force on each particle a. increases. b, decreases. c. stays the same.Â
Placing a conductor increases the force between two charges because in the case of glass or other dielectrics, the effective distance between two charges rises as opposed to decreasing.
What occurs when a positive and negative charge are in close proximity to one another?Each charge repels the other. When a positive charge and a negative charge interact, their forces move from the positive to the negative charge in the same manner. Because of this, opposing charges are drawn to one another: the ensuing forces and electric field created by two electrical charges with different polarities.
What is the definition of Coulomb's law of force between charges?Coulomb listed the following characteristics of the electric force for charges in a resting state: Unlike charges attract each other whereas like charges repel one another. the two positive charges attract a negative charge, while negative charges repel one another.
To know more about dielectrics visit:-
https://brainly.com/question/30523009
#SPJ1
A student throws a ball upwards from the ground level where gravitationa potential energy is zero. At a height of 15 m, the ball has a potential energy of 60 J, and is moving upwards with a kinetic energy of 40 J. Ignoring air resistance, the maximum height achieved by the ball is:(A) 10 m (B) 20 m (C) 25 m (D) 30 m (E) 40 m
The maximum height reached by the ball which a student throws upwards is calculated to be 25 m.
The ball is going upward with a kinetic energy of 40 J and a potential energy of 60 J at a height of 15 m.
Let us find out the maximum height reached by the ball.
As potential energy is given as 60 J,
m g h = 60
m g (15) = 60
m g = 4 ----(1)
The total energy of the system at 15 meters is given as PE + KE = 100 Joules. From the conservation of energy the total energy in the system still remains the same at the maximum height, this is because energy cannot be generated or destroyed; it can be transformed from one type to other.
At the maximum height the velocity (v) of the system is 0, which means all its kinetic energy (KE) is converted to potential energy. Therefore the system consist only of potential energy.
KE + PE = 100
1/2 m v² + m g h = 100
Velocity v = 0 at the maximum height.
So, m g h = 100 ----(2)
From equation (1), m g = 4
Let us substitute in (2),
m g h = 100
4 h = 100
h = 25 m
Thus, the maximum height achieved by the ball is 25 m.
To know more about maximum height:
https://brainly.com/question/14280515
#SPJ4
you work for a manufacturing facility that produces electrical resistors. currently you sell a resistor that has a length of 9 cm, a cross-sectional area of 3 cm2 and uses metal a with an electrical resistivity of 2 ohm-cm. unfortunately the melting point of the resistive metal is too low and these resistors keep failing due to melting in operation. you are asked to design a new resistor with the same resistance using metal b which has a higher melting temperature. metal b has an electrical resistivity of 6 ohm-cm. what would you recommend for its design?
To maintain the same resistance, we need to increase either the length or decrease the cross-sectional area to compensate for the increased resistivity of metal B. One option could be to increase the length of the resistor to 18 cm and keep the cross-sectional area the same. Another option could be to decrease the cross-sectional area to 1.5 cm^2 and keep the length the same.
The resistance of the resistor can be calculated using the following formula:
R = ρ * L / A
where
ρ = resistivity (2 ohm-cm for metal A)
L = length (9 cm)
A = cross-sectional area (3 cm^2)
R = 2 ohm-cm * 9 cm / 3 cm^2 = 6 Ω
To design a resistor with the same resistance using metal B (ρ = 6 ohm-cm), we need to keep the resistance formula constant:
R = ρ * L / A
6 Ω = 6 ohm-cm * L / A
Learn moe about resistance here: brainly.com/question/29427458
#SPJ4
an 80 kg man and 50 kg woman stand 0.5 m from each other. what is the force of gravitational attraction between the couple?
The force of gravitational attraction between the man and woman is 1.0672 × 10⁻⁶ N, if the mass of the man & woman is 80 kg & 50 kg respectively.
Let the Mass of the man, m₁ = 80 kg
Mass of the woman, m₂ = 50 kg
Distance between them, d = 0.5 m
We know the universal gravitational constant, G = 6.67 × 10⁻¹¹ Nm²/kg²
According to Newton's law of gravitation, Gravitational force between two objects having mass m₁ & m₂ at a distance apart d meter, is mathematically formulated as, F = Gm₁m₂/d²
F = (6.67 × 10⁻¹¹ × 80 × 50)/0.5²
F = (2.668 × 10⁻⁷) /0.25
F = 1.0672 × 10⁻⁶ N
To know more about gravitational constant, here
https://brainly.com/question/858421
#SPJ4
An airplane flying North at 98. 7 m/ encounter a 47. 5 m/ headwind. What i the airplane’ peed relative to the ground?
Answer:
51.2 m/
Explanation:
The headwind will slow down the airplane and make it move slower relative to the ground 98.7 - 47.5 = 51.2 m/ relative to ground
This famous object is the largest carving in the world created from a single stone.
It was Shiloh's initial archaeological dig. At the location, he found the most well-known relic.
From from 500 B.C. to roughly 1650 A.D., the Adena, Hopewell, and Fort Ancient Native American societies constructed mounds and enclosures in the Ohio River Valley for burial, religious, and occasionally defence purposes. In 1899, "Mound C" was penetrated by a trench that was built by Shiloh Park Commission chairman Cornelius Cadle. The first archaeological dig at Shiloh took place in 1350 CE, after which the site was abandoned. Around 1000 CE, indigenous people of the Late Woodland civilization first inhabited the area, followed by those of the Early Mississippian culture. The largest stone pipe carved into the form of a kneeling man was the most well-known relic he found at the location. Therefore, choice A is right.
Learn more about Mound C here:
https://brainly.com/question/30071912
#SPJ4
A player runs the length of the 30. 0 space m court and back. The player does this three times in 60 space s.
This is repeated three times in 60 spaces, with a 1.5 m/s average speed.
The player runs a total distance of 30 m * 3 = 90 m in 60 s,
so the player's average speed is 90 m / 60 s = 1.5 m/s.
The size or extent of the displacement between two points is referred to as distance. Keep in mind that the distance between two points and the distance travelled between them are not the same. The length of the entire journey taken to go from one point to another is the distance travelled.
Calculating the ratio of the body's total distance traveled to the time needed to complete that distance yields the average speed formula. The formula describing the average speed of an item traveling at a variable speed is called an equation.
For such more question on average speed
https://brainly.com/question/6504879
#SPJ4
Note: The correct question would be as bellow,
In a drill during basketball practice, a player runs the length of the 30 meter court and back. The player does this three times in 60 seconds. The magnitude of the player's average velocity during the drill is...
If a 3kg ball 5m in the air is moving at 7m/s.
a. What is its kinetic energy?
b. What is its potential energy?
c. What is its mechanical energy?
a. Kinetic Energy = 49j
b. Potential Energy= 147 j
c. Mechanical Energy = 196 j
What is kinetic energy?Kinetic energy of an object is the energy that it possesses due to its motion which is defined as the work needed to accelerate a body of a given mass from rest to its stated velocity.
a. Kinetic Energy = 1/2 * m * v^2,
KE = 1/2 * 3kg * (7m/s)^2 = 49 J.
b. Potential Energy = m * g * h,
PE = 3kg * 9.8 m/s^2 * 5m = 147 J.
c. Mechanical Energy = KE + PE,
ME = 49 J + 147 J = 196 J.
Learn more about kinetic energy at: https://brainly.com/question/25959744
#SPJ1
Taking into account the definition of kinetic, potencial and mechanical energy, if a 3kg ball 5m in the air is moving at 7m/s, the kinetic energy is 73.5 J, the potential energy is 147.15 J and the mechanical energy is 220.65 J.
Deinition of Kinetic energyKinetic energy is the energy possessed by a body or system due to its movement.
Kinetic energy is defined as the amount of work necessary to accelerate a body of a certain mass and in a position of rest, until it reaches a certain speed. Once the final speed is reached, the amount of kinetic energy accumulated will remain constant, that is, it will not vary, unless another force acts on the body again.
Kinetic energy is represented by the following expression:
Ec = 1/2×m×v²
Where:
Ec is kinetic energy, which is measured in Joules (J).m is mass measured in kilograms (kg).v is velocity measured in meters over seconds (m/s).Definition of Potential energyGravitational Potential Energy is the energy that an object possesses due to its position in a gravitational field and represents the potential that an object has to do work as a result of being located in a particular position within that gravitational field.
For an object with mass m, at height h, the expression applied to the gravitational energy of the object is:
Ep= m×g×h
Where:
Ep is the potential energy in joules (J).m is the mass in kilograms (kg).h the height in meters (m).g is the acceleration of fall in m/s² (approximately 9.81 m/s²).Definition of Mechanical energyMechanical energy is that which a body or a system obtains as a result of the speed of its movement or its specific position, and which is capable of producing mechanical work. This is:
Potential energy + kinetic energy = total mechanical energy
The principle of conservation of mechanical energy indicates that the mechanical energy of a body remains constant when all the forces acting on it are conservative (a force is conservative when the work it does on a body depends only on the initial and final points and not the path taken to get from one to the other.)
Kinetic energy in this caseIn this case, you know:
m= 3 kgv= 7 m/sReplacing the definition of kinetic energy:
Ec = 1/2×3 kg× (7 m/s)²
Solving:
Ec= 73.5 J
The kinetic energy is 73.5 J.
Potential energy in this caseYou know:
m= 3 kgh= 5 mg= 9.81 m/s²Replacing in the definition of potential energy:
Ep= 3 kg× 9.81 m/s²× 5 m
Solving:
Ep= 147.15 J
The potential energy is 147.15 J.
Mechanical energyBeing:
The kinetic energy is 73.5 J.The potential energy is 147.15 J.the mechanical energy can be calculated as:
Potential energy + kinetic energy = total mechanical energy
147.15 J + 73.5 J = total mechanical energy
Solving:
220.65 J = total mechanical energy
The mechanical energy is 220.65 J.
Learn more about kinetic energy, potential energy and mechanical energy:
brainly.com/question/17809741
#SPJ1
Paper clip Y is not attracted to the magnet. Which step should the student take to attract it?
O A The student should use a battery with less energy.
O
8
D
The student should use a smaller core in the magnet.
The student should wrap the coil fewer times around the nail.
The student should move the magnet closer to the paper clip.
Answer:d
Explanation:magnet is to weak
Answer: that means to shut your trap you little turd
Explanation:
A proton is located at <0, 4 × 10-8, 0> m. What is the force on the proton, due to the dipole? (Express your answer in vector form.)F→ on p+bydipole =< , , > N
Proton is subject to a dipole-induced force of F = 32.40 10-15 N. [(proh-ton)] A positively charged elementary particle that can be found in the atom's nucleus.
A proton, a subatomic particle, is found in the nucleus of every atom. The particle has a positive electrical charge, similar to the electron but moving in the other direction. The H+ ion or the hydrogen atom's nucleus are examples of protons. Each hydrogen atom, regardless of isotope, has one proton, each helium atom, two, each lithium atom, three, and so on. The electron, which is negatively charged, is a very light particle. These electrons go around the nucleus in different orbits. Protons are positively charged particles that have a mass of about 1 amu. These positively charged particles are found in the center of the atom, the nucleus.
Learn more about proton from here:
https://brainly.com/question/1252435
#SPJ4
Four point-like charges are placed as shown in the figure, three of them are at the corners and one at the center of a square, 30.0 cm on each side. Find the magnitude of the net electrostatic force exerted on the point charge q4. Let q1 = q 3 = +31.0 pC, q2 = -23.0 µC, and q4 = -45.0 µC.
As a result, the point charge q₄ experiences a net electrostatic force of 4.80 x 10⁻² N.
What is the charge?The sum of the forces exerted on the point charge q₄ by the three other point charges is the magnitude of the net electrostatic force on that charge:
We can use Coulomb's law to determine the magnitude of [tex]F_{net}[/tex] :
[tex]F_{net}[/tex] = F₁₂ + F₁₃ + F₂
F is equal to k × |q₁×q₂ / r₂,
where k is the Coulomb's constant, q₁ and q₂ are the charges of the two points, and r is the distance between the points.
The side of the square is the distance r for F₁₂,
so r = 30.0 cm.
F₁₂ = k × |(31.0 pC)× (-23.0 C) / (30.0 cm)²
F₁₃ and F₂₃ have the same equation, but the charges are different, so we can calculate them in the same way.
We can then add the three forces to get the net force on q₄:
F₁₃ = k × |(31.0 pC)× |(-45.0 °C)| / (30.0 cm)²
F₂₃ = k × |(-23.0 °C)× |(-45.0 °C)| / (30.0 cm)²
Fnet = F₁₂ + F₁₃ + F₂₃
Fnet = (k × |(31.0 pC) × (-23.0 C)| / (30.0 cm)2) + (k × |(31.0 pC) × (-45.0 C)| / (30.0 cm)²) + (k × |(-23.0 C) × (-45.0 C)| / (30.0 cm)²)
When the charges and the distance are substituted
The magnitude of the net electrostatic force exerted on the point
charge q₄ is 4.80 x 10⁻² N
Fnet = (8.99 x 10⁹ Nm²/C² × |(31.0 pC)×(-23.0 °C)| / (30.0 cm)²) + (8.99 x 10⁹ Nm²/C² × |(31.0 pC) × (-45.0 °C)| / (30.0 cm)²)
[tex]F_{net}[/tex] = 4.80 × 10 ⁻²
What gives rise to electric charge?When electrons are added to or taken away from an object, an electrical charge is created. When electrons are added to an object, it takes on a negative charge due to their negative charge. Positive charge is created when an object loses its electrons.
Learn more about Electric charge :
brainly.com/question/26100412
#SPJ4
1–61. if the 60-mm diameter shaft is subjected to an axial force of 5 kn, determine the average shear stress developed in the shear plane where the collar a and shaft are connected.problems 1–60/61
The average shear stress developed in the shear plane where the collar A and shaft are connected is 50.265 kPa.
The average shear stress can be calculated using the formula:
τ_avg = F / A
where F is the applied axial force of 5 kN and A is the shear area.
The shear area can be calculated using the formula:
A = π * d * t
where d is the diameter of the shaft (60 mm) and t is the thickness of the collar (15 mm).
Substituting the values, we get:
A = π * 60 * 15 * 10^-6 m^2
Calculating the average shear stress:
τ_avg = 5 kN / (π * 60 * 15 * 10^-6 m^2) = 50.265 kPa
Therefore, the average shear stress developed in the shear plane where the collar A and shaft are connected is 50.265 kPa.
Learn more about shear stress here: brainly.com/question/30328948
#SPJ4
a 2 μc charge is at the origin. a 5 μc charge is on the x-axis at 1 m. at what point between the charges is the electric field zero?
The point between the two charges where the electric field equal to zero is calculated to be 0.32 m.
The charge q₁ is given as 2 μc = 2 × 10⁻⁶ c
It is located at x₁ = 0.
The charge q₂ is given as 5 μc = 5 × 10⁻⁶ c
It is located at x₂ = 1 m.
Let us suppose that, electric field is zero at the point x, it is in between 0 and 1 m.
We know the formula for electric field as,
E = k q /r²
Let us equate the electric field at both the charges.
k q₁/x² = k q₂/(x₂ - x)²
q₁ (x₂ - x)² = q₂ x²
2 × 10⁻⁶× (1 - x)² = 5 × 10⁻⁶× x²
2 × ( 1 + x² - 2x) = 5 × x²
2 + 2x² - 4x = 5x²
7 x² + 4x - 2 = 0
The two values of x are,
x = 0.32, -0.892
The distance cannot be negative. So, the electric field at x = 0.32 m is said to be zero.
Thus, the required value of x is 0.32 m.
To know more about electric field:
https://brainly.com/question/4273177
#SPJ4
Gauss's Law Problem 1 (a) Consider a solid sphere of radius R where the electric charges are uniformly distributed throughout the entire sphere with a uniform volume charge density p. Find the electric field everywhere at points both inside the sphere. d (b) A charged slab extends infinitely in two dimen- sions and has thickness d in the third dimension, as shown in the right figure. The slab carries a uniform volume charge density p and is extended between z =d/2 and z= -d/2. Find the expression for the electric field inside the slab. -2=0 Id y (c) As shown in the right figure, we have a slab with a uniform volume charge den- sity p extending to infinity in the c-y plan, with a thickness d. At the center of the system, we have a spherical cav- ity of radius R with R
The electric field within the sphere is given by E = (4p/3) * (R^3 - r^3) / (R^2 - r^2). The electric field inside the slab is given by E = pd/2. The electric field at the center of the spherical cavity is given by E = pd/2 * (R/d)2.
What is electric flux?Electric flux is the measure of the electric field through a particular surface in electromagnetism, despite the fact that an electric field cannot flow. At any location in space, the electric field E can impose a force on an electric charge. The gradient of the potential is represented by the electric field.
Here,
(a) According to Gauss's Law, the electric flux through any closed surface is proportional to the charge contained inside the surface. The electric field at a location inside a solid sphere may be computed by splitting the sphere into concentric shells and calculating the electric field owing to each shell. Inside the sphere, the electric field is given by:
E = (4πp/3) * (R^3 - r^3) / (R^2 - r^2)
(b) The electric field inside a charged slab may be calculated by splitting the slab into thin charge layers and adding the electric field owing to each layer. Inside the slab, the electric field is given by:
E = pd/2
(c) Subtracting the electric field owing to the slab from the electric field due to the entire space yields the electric field at the center of a spherical cavity in an indefinitely large charged slab. The electric field at the spherical cavity's center is given by:
E = pd/2 * (R/d)^2
The electric field inside the sphere is given by: E = (4πp/3) * (R^3 - r^3) / (R^2 - r^2). The electric field inside the slab is given by: E = pd/2. The electric field at the center of the spherical cavity is given by: E = pd/2 * (R/d)^2.
To know more about electric flux,
https://brainly.com/question/14544020
#SPJ4
the terminator of a gene is located upstream of the coding region. TRUE OR FALSE
False. The terminator of a gene is located downstream of the coding region.The terminator of a gene is a DNA sequence that signals the end of transcription, or the process by which genetic information is converted from DNA to RNA.
It is located downstream of the coding region, which is the part of the gene that contains the instructions for making a particular protein. The terminator helps to regulate the amount of mRNA that is produced, as well as to prevent the production of unwanted transcripts. The precise location and sequence of the terminator vary among different genes, but its role in regulating transcription is an important aspect of gene expression.
Find out more about transcription
brainly.com/question/14136689
#SPJ4
true/false - Sonar uses sound waves to measure water depth
Sonar (SOund Navigation And Ranging) uses sound waves to estimate water depth. It operates by producing a sound wave and monitoring how long it takes for the wave to bounce back after striking the ocean floor. The depth of the water may be determined based on this time measurement.
What is SONAR?Sonar is a technology for navigating, measuring distances, communicating with, or detecting things on or beneath the water's surface, such as other vessels. Sonar (from "sound navigation range") is an acoustic technology for detecting and estimating the distance and direction of underwater objects. Sonar equipment detects and analyzes sound waves generated or reflected by the item for the information they convey. sonar.
Here,
Sonar (SOund Navigation And Ranging) does utilize sound waves to estimate water depth. It operates by sending out a sound wave and monitoring how long it takes for the wave to bounce back after reaching the ocean floor. The depth of the water may be determined using this time measurement.
To know more about SONAR,
https://brainly.com/question/20510435
#SPJ4
One way to write Coulomb's law is F = where F is the p2 magnitude of the electric force, k is a constant, Q and q are the two electrical charges and r is the distance between them. Solve Coulomb's law for r. r = KQq F
One way to write Coulomb's law is F = where F is the p2 magnitude of the electric force, k is a constant, Q and q are the two electrical charges and r is the distance between.
What is Coulomb's law?
Coulomb identified the following characteristics of the electric force for charges at rest: Contrary charges attract each other whereas like charges repel one another. Accordingly, two negative charges repel one another, but a positive charge pulls a negative charge toward it. In between the two charges, there is an area of attraction or repulsion.
What is electric charge?
Protons and electrons, which function as charge carriers, frequently carry both positive and negative electric charges. By moving charges, energy is produced. Charge—also referred to as electric charge, electrical charge, or electrostatic charge—is a property of a unit of matter in physics and is denoted by the letter q.
Therefore, One way to write Coulomb's law is F = where F is the p2 magnitude of the electric force, k is a constant, Q and q are the two electrical charges and r is the distance between.
Learn more about Coulomb's law from the given link.
https://brainly.com/question/506926
#SPJ4
Which two equations represent double replacement reactions.
A. HCl+KOH=KCl+H2O
B. BaCl2+Na2SO4=2NaCl+BaSO4
C. 2C2H6+7O2=4CO2 +6H2o
D. Ca+MgS=CaS+Mg
Two equations represent double replacement reactions are:
C. 2C2H6+7O2=4CO2 +6H2o
D. Ca+MgS=CaS+Mg
ABOUT METATHESIS REACTIONA metathesis reaction, sometimes referred to as a double exchange reaction, double replacement reaction, or multiple decomposition reaction, is a chemical reaction involving the exchange of bonds between two non-reacting chemical species resulting in the formation of products with the same type of bond. This reaction is illustrated by the following scheme:
A-B + C-D → A-D + C-B
A metathesis reaction involves the exchange of two groups or ions between the reactants.
The bond between reacting species can be either ionic or covalent. Usually, this reaction produces an insoluble product from the soluble reactant. This product is referred to as precipitate.
Learn more about double replacement reaction at https://brainly.com/question/11678166.
#SPJ4
bond involves the sharing of electron pairs between atoms, also known as a molecular bond.true or false
A bond involves the sharing of electron pairs between atoms, also known as a molecular bond.
The given statement is True.
A covalent bond is a chemical relationship that requires the sharing of electrons between atoms to generate electron pairs. These electron couples are known as bonding pairs or sharing pairs. Covalent bonding is the steady equilibrium of attractive and repulsive forces between atoms when they share electrons.
The number of atoms that can be bound together to create molecules is fixed; for example, every water molecule has two hydrogen atoms and one oxygen atom. Chemical compounds are distinguished from solutions and other mechanical mixes by this property.
For more questions on molecular bond
https://brainly.com/question/819068
#SPJ4
a 150 watt bulb has a surface area of 15 cm, a radius 0.05 m and an emissivity of 0.85. what is the temperature?
The temperature of a 150-watt bulb having a surface area of 15 cm², a radius of 0.05 m, and an emissivity of 0.85 is 1200K.
According to the Stefan-Boltzmann law, P=eσAT⁴. The power of the bulb is 150 watts. The value of emissivity, e=0.85, and the radius, r=0.05m. The surface area, A= 15 cm²= 0.0015 cm². The value of the Boltzmann constant,σ =5.67×10⁻⁸ Wm² K⁴. So, the temperature,T⁴= P/eσA = 150/(0.85×5.67×10⁻⁸×0.0015) =(150×10⁸)/ (0.85×5.67×0.0015) = 20750×10⁸. Therefore Temperature,T= (20750×10⁸)^¼ = 1200 K.
So the temperature of the 150-watt bulb is 1200 K. Stefan-Boltzmann describes about the power that is radiated by a black body in terms of temperature. It states that the amount of radiation emitted by a black body per unit area is directly proportional to the fourth power of the temperature. While the typical situation is envisioned here is the radiation of a hot object to its cooler surroundings, this law is not limited here.
For further learning about Stefan Boltzmann's law, refer to the link:
https://brainly.com/question/14919749
#SPJ4
calculate the speed of a proton that is accelerated from rest through an electric potential difference of 144 v.
The speed of a proton that is accelerated from rest through an electric potential difference of 144 V is 160 km/s.
Proton Electric field system as an isolated system for energy. Applying energy conservation: ΔK+ΔU=0
(1/2 mp× vf² − 1/2mp× vi² )−qp× ΔV=0. Where vi=0 since the proton is accelerated from rest, so, (1/2 mp× vf²)−qp× ΔV=0. The electric potential difference,∆V= 144 volts. Now solving for vf=[(2×qp×∆V)/mp]^½ =[(2×1.602×10⁻¹⁹×144)/1.674×10⁻²⁷]^½ =16×10⁴ m/s = 160 km/s.
A proton has about 2000 times the mass of an electron, so it would have to travel at about ¹/₂₀₀₀ the speed of an electron to have the same momentum — 3.90×10⁶m/s2000 ≈ 2000 m/s and the same wavelength.
For further learning about the speed of accelerated proton, refer to the link:
https://brainly.com/question/18568230
#SPJ4
A sensor uses 2. 0 x 10-4 A of current when it is operated by a 3. 0-V battery. What is the resistance of the sensor circuit?
Answer:
1500 Ω
Explanation:
The resistance of the sensor circuit can be found using Ohm's law, R = V/I, where R is resistance, V is voltage, and I is current.
R = 3.0V / 2.0 x 10^-4 A = 1500 Ω.
So the resistance of the sensor circuit is 1500 Ω.
Enzo found a wooden hammer at a crime scene. The head of the hammer appears to have been used to strike the victim. What can he MOST
accurately conclude about DNA evidence and the hammer?
A.
The handle of the hammer could possibly have sweat or skin on it.
B.
The head of the hammer is most likely to have the suspect's DNA on it.
C.
The handle of the hammer is most likely to have the victim's DNA on it.
D. It is impossible to collect DNA from a wooden surface.
A.
The handle of the hammer could possibly have sweat or skin on it.
Help please!!! What is the difference between corrosive and flammable?
Answer:
Explanation:
Most corrosive materials are non-flammable, except for acetic acid and formic acid. However, nitric acid and perchloric acid are oxidizers and should be segregated from combustible and flammable materials. Corrosive materials can have other hazards, however, the corrosivity is usually the primary hazard.Flammable liquids burn at normal working temperatures while combustible liquids need heat before they will ignite All this info should help…. ✨
the lines in the emission spectrum of hydrogen are measured when observer moving away
The lines in the emission spectrum of hydrogen are measured to become more widely spaced and longer in wavelength when the observer is moving away from the source of light.
This effect is known as redshift and is a result of the Doppler effect, which occurs when a light source is in motion relative to an observer.
As the observer moves away from the source of light, the wavelength of the emitted light is stretched, making the spectral lines appear longer and more widely spaced.
This is because the speed of light is reduced relative to the observer, causing the wavelength of the light to be longer than it would be in the rest frame of the observer.
Question should be like this
The lines in the emission spectrum of hydrogen are measured when observer moving away from the source of light ?
Know more about emission spectrum
https://brainly.com/question/27268130#
#SPJ11
a 2.5 kg mass is rotated into a conical pendulum where the length of string connected to the mass is 0.68 m and the angle between the string and vertical is 35°. determine:
The tension in the string of a conical pendulum is 18.6 N.
What is the tension in the string?
The tension in the string of a conical pendulum can be determined using the following formula:
T = mg(L / L + lcos(θ))
where:
m = 2.5 kg (mass of the object)g = 9.8 m/s² (acceleration due to gravity)L = 0.68 m (length of the string)θ = 35° (angle between the string and vertical)The tension in the string of a conical pendulum is calculated as
T = 2.5 x 9.8 x (0.68 / (0.68 + (2.5 x 9.8 x cos(35°)))
T = 18.6 N.
Learn more about tension in string here: https://brainly.com/question/24994188
#SPJ1
how many milliseconds after the switch opens is the energy stored in the capacitor 79 % of its final value?
The time cannot be calculated without those values but if we take R= 1 and C= 1, the switch opens at almost 4 milliseconds according to the question.
The time constant, τ, of the RC circuit would be τ = R × C = 1 × 1 = 1 (Where R denotes the resistance and C the capacitance).
The time it takes for the energy stored in the capacitor to fall to 79% of its final value after the switch opens is approximately equal to
4 × τ = 4 × 1 = 4 milliseconds.
After the switch opens, it takes around 4 times for the energy stored in the capacitor to decrease to 79% of its final amount.
Therefore, knowing the values of R and C is necessary in order to calculate the time in milliseconds. The time cannot be calculated without those values.
Learn more about time:
https://brainly.com/question/28050940
#SPJ4