Answer:
45.9 kg
Explanation:
GPE = mgh
m = GPE / gh = (1800 J) / (9.8 m/s²)(4 m) = 45.9 kg
Find the angle of incidence for a ray of light passing from water into diamond when r=14°
The angle of incidence for the light ray passing from water into diamond is approximately 68.1 degrees.
What is Incidence Ray?
An incident ray is a term used in optics to describe a beam of light that is traveling towards a surface or boundary where it will be either absorbed, reflected, or refracted. When an incident ray encounters a boundary between two different media with different refractive indices, some or all of the ray's energy may be reflected back into the original medium, some may be absorbed, and some may be transmitted into the second medium.
To solve this problem, we can use Snell's law, which relates the angle of incidence and the angle of refraction of a light ray passing from one medium to another:
n1sin(theta1) = n2sin(theta2)
where n1 and n2 are the refractive indices of the two media, and theta1 and theta2 are the angles of incidence and refraction, respectively.
In this case, the light ray is passing from water (n1 = 1.333) into diamond (n2 = 2.417), and we are given that the ratio of the sines of the angles of incidence and refraction is r = sin(theta2)/sin(theta1) = 14.
n1sin(theta1) = n2sin(theta2)
sin(theta2) = r*sin(theta1)
n1/n2 * sin(theta1) = r*sin(theta1)
sin(theta1) = rn2/(n1 + rn2)
theta1 = arcsin(rn2/(n1 + rn2))
Plugging in the values for n1, n2, and r, we get:
theta1 = arcsin(142.417/(1.333 + 142.417))
theta1 = 68.1 degrees
Therefore, the angle of incidence for the light ray passing from water into diamond is approximately 68.1 degrees.
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Both circles have the same center. The circumference of the inner circle is 117.436 centimeters. What is the area of the shaded region?
The area of the shaded region is 4621.5 cm2 - 1083.8 cm2 = 3537.7 cm.
What is area?Area is the space or size of a two-dimensional surface or shape. It is a measure of the size of a surface and is typically expressed in square units, such as square feet or square meters. Area is usually calculated by multiplying the length of a shape by its width. For example, the area of a rectangle with a length of 4 feet and a width of 3 feet is 12 square feet. Area can also be calculated for shapes with curved sides such as circles, triangles, and other polygons.
The shaded region is the area between the two circles. To calculate the area of the shaded region, we need to subtract the area of the inner circle from the area of the outer circle.
The area of the outer circle can be calculated using the formula A = πr2, where r is the radius of the circle. Since the two circles have the same center, the radius of the outer circle is twice the radius of the inner circle.
Therefore, the radius of the outer circle is 2 × (117.436/2π) = 38.212 cm.
The area of the outer circle is A = π × 38.212^2 = 4621.5 cm2.
The area of the inner circle can be calculated using the same formula: A = πr2. The radius of the inner circle is (117.436/2π) = 18.606 cm.
The area of the inner circle is A = π × 18.606^2 = 1083.8 cm2.
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6. Applying Concepts The area of an output
piston is 25 times greater than the area of the
input piston. If the input force is 40 newtons,
what is the output force?
helppp please
Answer:
[tex]1000\; {\rm N}[/tex].
Explanation:
By Pascal's Law, the pressure on the two pistons should be the same.
Let [tex]F_{\text{in}}[/tex] and [tex]F_{\text{out}}[/tex] denote the forces on the two pistons. Let [tex]A_{\text{in}}[/tex] and [tex]A_{\text{out}}[/tex] denote the area of the two pistons.
Divide force by area to find the pressure.
Pressure on the input piston: [tex]\displaystyle P_{\text{in}} = (F_{\text{in}}/A_{\text{in}})[/tex].Pressure on the output piston: [tex]\displaystyle P_{\text{out}} = (F_{\text{out}} / A_{\text{out}})[/tex].By Pascal's Law, [tex]P_{\text{in}} = P_{\text{out}}[/tex]. Therefore:
[tex]\displaystyle \frac{F_{\text{in}}}{A_{\text{in}}} = \frac{F_{\text{out}}}{A_{\text{out}}}[/tex].
It is given that [tex]F_{\text{in}} = 40\; {\rm N}[/tex] and that [tex]A_{\text{out}} = 25\, A_{\text{in}}[/tex]. Therefore, the equation becomes:
[tex]\displaystyle \frac{40\; {\rm N}}{A_{\text{in}}} = \frac{F_{\text{out}}}{25\, A_{\text{in}}}[/tex].
Rearrange to find [tex]F_{\text{out}}[/tex]:
[tex]\begin{aligned}F_{\text{out}} &= \frac{(40\; {\rm N})\, (25\, A_{\text{in}})}{A_{\text{in}}} = 1000\; {\rm N}\end{aligned}[/tex].
Answer the following mcq
The reason for the deflection of the compass from the magnetic north of the Earth when a current-carrying wire is placed over Magnetic effect due to current carrying wire.
What is Magnetic effect ?
Magnetic effect refers to the influence that a magnet or a magnetic field has on other magnets, magnetic materials, or moving charges. This effect is a result of the physical properties of magnetic fields, which are created by moving charges, such as electrons.
The magnetic effect is responsible for various phenomena, including the attraction or repulsion of magnets, the creation of magnetic fields around current-carrying wires, the behavior of moving charges in a magnetic field, and the generation of electricity in electric generators.
The reason for the deflection of the compass from the magnetic north of the Earth when a current-carrying wire is placed over it is option (a) - Magnetic effect due to current carrying wire.
When a current flows through a wire, it creates a magnetic field around the wire. This magnetic field can interact with the magnetic field of the Earth, causing the compass needle to deflect from its original direction. This phenomenon is known as the magnetic effect of a current-carrying wire.
Therefore, she action of connecting a battery to the wire and placing it over the compass caused a current to flow through the wire, which in turn created a magnetic field around the wire, leading to the deflection of the compass needle.
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With electric force, like charges ___.
A. Repel
B. Attract
With electric force, like charges repel each other. Therefore, option A is the correct answer. This is because like charges, such as two positive or two negative charges, have the same sign and will produce an electric field that points away from each other.
Why do opposite charges attract each other?Opposite charges, such as positive and negative, will produce an electric field that points towards each other, resulting in an attractive force that brings the charges closer together.
How can you identify a positive and negatively charged body?One can identify a charged body using a charged rod, such as a plastic rod that has been rubbed with a cloth. If you bring the charged rod close to an uncharged object, such as a piece of paper, and the paper is attracted to the rod, the rod is negatively charged. If the rod repels the paper, the rod is positively charged.
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What is the force of an electric field of strength 4.0 N/C on a charge of 0.5 C?
Please show work this is due today. Giving out brainliest.
The force on a charge of 0.5 C in an electric field of strength 4.0 N/C is 2.0 N.
What is electric field?
Any electrically charged object or collection of objects is surrounded by a physical field known as the electric field. Since it is a vector field, its magnitude and direction are both present. The force per unit charge that a test charge would experience if it were placed at that location in space is known as the electric field.
A stationary charge, such as a charged particle or an electrically charged item, can produce an electric field, as can a changing magnetic field, as in the case of electromagnetic waves. An electric field's strength at a given location is inversely proportional to its distance from the charge and inversely proportional to the quantity of charge present.
The force on a charged particle in an electric field is given by the formula:
F = qE
where F is the force in Newtons, q is the charge in Coulombs, and E is the electric field strength in N/C.
Given the electric field strength E = 4.0 N/C and the charge q = 0.5 C, we can calculate the force as follows:
F = qE
F = (0.5 C) x (4.0 N/C)
F = 2.0 N
Therefore, the force on a charge of 0.5 C in an electric field of strength 4.0 N/C is 2.0 N.
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One component of a magnetic field has a magnitude of 0. 0404 T and points along the x axis while the other component has a magnitude of 0. 0739 T and points along the y axis A particle carrying a charge of 2. 80 10 5 C is moving along the z axis at a speed of 4. 46 103 m s a Find the magnitude of the net magnetic force that acts on the particle b Determine the angle that the net force makes with respect to the x axis
a) The magnitude of the net magnetic force that acts on the particle is 2.18 x 10-6 N.
b) The angle that the net force makes with respect to the x axis is 63.8°.
A magnetic field is a vector field that describes the magnetic influence on moving electric charges, electric currents, and magnetic materials. A moving charge in a magnetic field experiences a force perpendicular to its own velocity and to the magnetic field.Magnetic Field is the region around a magnetic material or a moving electric charge within which the force of magnetism acts. A pictorial representation of the magnetic field which describes how a magnetic force is distributed within and around a magnetic material.
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Container X contains 1. 0 mol of an ideal gas. Container Y contains 2. 0 mol of the ideal gas. Y has four times the volume of X. The pressure in X is twice that in Y. What is the ratio of temperature of gas in X to temperature of gas in Y?
The ratio of temperature of gas in X to temperature of gas in Y is 2:1.
This is due to the Ideal Gas Law, which states that PV = nRT. Since the pressure and volume are different, the temperature must also be different. Since the pressure in Container X is twice that of Container Y, the temperature in Container X must be twice that of Container Y. Therefore, the ratio of temperature of gas in X to temperature of gas in Y is 2:1.The ideal gas law, also called the general gas equation, is the equation of state of a hypothetical ideal gas.
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What is the wavelength of the longest wavelength standing wave pattern that can fit on this guitar string? standing waves on a guitar string form when waves traveling down the string reflect off a point where the string is tied down or pressed against the fingerboard. The entire series of distortions may be superimposed on a single figure, like this (figure 2), indicating different moments in time using traces of different colors or line styles. Part ab
The wavelength of the standing wave λ = 40cm
What is a Wavelength?A waveform signal that is carried in space or down a wire has a wavelength, which is the separation between two identical places (adjacent crests) in consecutive cycles.
Its length is typically defined in wireless systems in meters (m), centimeters (cm), or millimeters (mm) (mm).
How to solve:
We know the distance between two successive nodes = λ / 2
From the figure distance between two successive nodes = 20 cm
i.e. λ / 2 = 20 cm
∴ The wavelength of the standing wave λ = 40cm
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9. Because water consists of polar molecules, ___.
A. Water falls as sleet or snow when temperatures are cold.
B. Water can be attracted using a magnet
C. Water is attracted to the magnet north pole
D. Water molecules tend to stick together
Answer:
D water molecules tend to stick together.
Explanation:
a water molecule consists of 1 oxygen atom and 2 hydrogen atoms. because of the oxygen atom, this makes water electronegative, giving the hydrogen side a partial charge and the oxygen side a partial negative charge, making the water molecule polar. the oxygen is attracted to hydrogens, and the hydrogens are attracted to oxygens creating hydrogen bonds. hence the answer is D the water molecules tend to stick together.
Mike recently purchased an optical telescope. Identify the part of the electromagnetic spectrum that is closest to the frequency that Mike can observe
with the help of his new tool.
gamma ray
x-ray
ultraviolet
infrared
microwave
radio
Gamma rays and radio waves both fall under the electromagnetic spectrum. Presented is a picture that shows the complete spectrum. But the optical telescope can only see the visible spectrum. As a result, it is limited to frequencies between [tex]400[/tex] and [tex]700 nm[/tex].
What is the role of electromagnetic spectrum?It is safe to infer that Mike will be observing the visible region of the electromagnetic spectrum, since he recently bought an optical telescope.
The capacity of a thing to attract other objects to it; connected with or produced by the magnetic force. Physics. The study of the relationship between magnetism and electricity is referred to as electromagnetism.
The colours of the rainbow that the human eye can see, from violet to red, are included in this region of the electromagnetic spectrum.
Therefore, the closest frequency Mike can see with his new device is in the visible light spectrum, which lies between ultraviolet and infrared on the electromagnetic spectrum.
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When they collide, or combining into clusters
When particles collide, they can either bounce off each other or stick together to form larger clusters.
The outcome of a collision depends on the properties of the particles involved, including their size, shape, and composition, as well as the conditions under which the collision occurs, such as temperature, pressure, and velocity. In elastic collisions, particles bounce off each other without losing any energy or undergoing any permanent deformation. In inelastic collisions, particles stick together to form larger clusters, which can range in size from small molecules to large aggregates. In some cases, collisions can also result in chemical reactions, where the particles involved undergo a chemical transformation to form new compounds. The way in which particles collide and interact with each other is important in many areas of science and engineering, including materials science, chemical reactions, and the behavior of gases and fluids. By understanding the dynamics of particle collisions, scientists and engineers can develop new materials and processes, and gain insights into the fundamental nature of matter and energy.
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The table below is missing its headings. Based upon the descriptions provided, what should "Column B be renamed?
Column A
Column B
Transverse
Transverse or Longitudinal
Does not require a medium to travel. Requires a medium to travel.
Includes visible light
Includes sound.
O Transverse Waves
O Mechanical Waves
O Electromagnetic Waves
O Longitudinal Waves
Column B should be renamed as Mechanical waves.
What are the differences between transverse and longitudinal waves ?Transverse waves require medium to travel while longitudinal waves doesn't require a medium.
Transverse waves can be polarized while longitudinal waves cannot be polarized.
Transverse waves consists of crests and troughs while longitudinal waves consists of compressions and rarefactions.
Here,
In column B include waves that could be both transverse and longitudinal and requires a medium to travel and also it includes sound. So these are the properties of mechanical waves.
Hence,
Column B should be renamed as Mechanical waves.
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Earthquake activity in california is primarily caused by
Answer:
Movements of the tectonic plates
Explanation:
Earthquake activity in California is primarily caused by the movement of the tectonic plates that make up the Earth's crust. California lies along the boundary where the Pacific Plate and the North American Plate meet, which is known as the San Andreas Fault. The movement of these plates causes stress to build up in the Earth's crust, which can lead to earthquakes. Additionally, there are many other faults in California, both large and small, that contribute to earthquake activity in the state.
Match the terms with their definitions. (4 points)
1.
Absolute zero
2.
Heat
3.
Temperature
4.
Latent heat
a.
Energy transferred from one object to another due to a temperature difference
b.
The degree of hotness or coldness of a body or environment
c.
The temperature at which a substance has no kinetic energy per particle to give up
d.
The energy released or absorbed by a substance during a change of state
The correct matches of the terms are Absolute zero represents the absence of thermal energy, heat is the transfer of energy, temperature measures the intensity of heat, and latent heat is involved in phase changes.
1. Absolute zero is the temperature at which a substance has no kinetic energy per particle to give up. Absolute zero is the lowest possible temperature, at which all molecular motion ceases.
2. Heat is the energy transferred from one object to another due to a temperature difference. Heat is the transfer of thermal energy from a hotter object to a colder object.
3. Temperature is the degree of hotness or coldness of a body or environment. Temperature measures the average kinetic energy of the particles in a substance, indicating how hot or cold it is.
4. Latent heat is the energy released or absorbed by a substance during a change of state. Latent heat is the heat energy absorbed or released when a substance undergoes a change of state, such as melting, vaporization, or condensation, while the temperature remains constant.
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Explain the risk-reduction concept of compromising among multiple risks
and give an example of its successful use.
Answer:
Risk reduction deals with mitigating potential losses by reducing the likelihood and severity of a possible loss. For example, a risk-avoidant investor who is considering investing in oil stocks may decide to avoid taking a stake in the company because of oil's political and credit risk.
Explanation:
A _ must be replaced if it is overloaded, while a _ needs only to be reset after an overload
Answer:
s
Explanation:
Can you please help me with this question?
To measure the voltage across R₂ using an oscilloscope, you need to connect the probe across R₂ in parallel.
How to measure the voltageTo measure the voltage across R₂ using an oscilloscope, you need to connect the probe across R₂ in parallel. Here's how you can do it:
Turn off the power to the circuit and make sure that it is completely discharged.
Take the oscilloscope probe and connect the ground clip to the ground reference of the circuit.
Connect the probe tip to the point where you want to measure the voltage, which in this case is across R₂.
Set the oscilloscope to the appropriate voltage range and scale so that you can clearly see the waveform.
Turn on the power to the circuit and observe the waveform on the oscilloscope.
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Help pls!!
Calculate the wavelength of a water wave with a speed of 2.3 m/s and
frequency of 5 Hz.
Answer:
The speed of a wave (v) is equal to the product of its wavelength (λ) and frequency (f), i.e., v = λf. Rearranging this equation, we get:
λ = v/f
Substituting the given values, we get:
λ = 2.3 m/s / 5 Hz
λ = 0.46 meters
Therefore, the wavelength of the water wave is 0.46 meters.
Explanation:
Answer:
The wavelength is 0.46 meters.
Explanation:
The speed of a wave is given by the formula:
v = λf
where v is the wave speed, λ is the wavelength, and f is the frequency.
We are given v = 2.3 m/s and f = 5 Hz. Rearranging the formula above to solve for λ, we get:
λ = v/f
Substituting the given values, we get:
λ = 2.3 m/s / 5 Hz = 0.46 m
Therefore, the wavelength of the water wave is 0.46 meters.
2. A grinding wheel, initially at rest, is rotated with constant angular acceleration a = 5.0 rad/s^2 for 8.0s. The wheel is then brought to rest, with uniform negative acceleration, in 10 rev. Determine the negative angular acceleration required and the time needed to bring the wheel to rest.
The negative angular acceleration required to bring the wheel to rest is approximately -0.126 rad/s^2, and the time needed to bring the wheel to rest is approximately 20.04 seconds.
Step by step explanationLet's first find the initial and final angular velocities of the wheel.
The initial angular velocity is zero because the wheel is initially at rest.
The final angular velocity can be found using the formula:
ωf = ωi + αt
where
ωf = final angular velocity
ωi = initial angular velocity (which is zero)
α = angular acceleration (5.0 rad/s^2)
t = time (8.0 s)
ωf = 0 + (5.0 rad/s^2)(8.0 s) = 40.0 rad/s
The negative angular acceleration can be found using the formula:
Δω = ωf - ωi = αt
where
Δω = change in angular velocity (which is equal to the final angular velocity because the initial angular velocity is zero)
α = angular acceleration (which is negative because the wheel is slowing down)
t = time
So we have:
Δω = 40.0 rad/s
αt = -α(10 rev)(2π rad/rev)/t
where we have converted 10 revolutions to radians (2π radians per revolution).
Setting these two expressions equal to each other and solving for α, we get:
α = -Δω/t = -(40.0 rad/s)/(10 rev x 2π rad/rev x t)
α = -2.53/t rad/s^2
Finally, we can use the formula for angular deceleration to find the time needed to bring the wheel to rest:
ωf^2 = ωi^2 + 2αΔθ
where
Δθ = angle through which the wheel rotates during the deceleration (which is 10 revolutions)
ωf = final angular velocity (which is zero)
ωi = initial angular velocity (which is 40.0 rad/s)
α = angular acceleration (which is negative)
So we have:
0 = (40.0 rad/s)^2 + 2(-2.53/t)(10 rev x 2π rad/rev)
0 = 1600 - 318.48/t
t = 20.04 s
Therefore, the negative angular acceleration required to bring the wheel to rest is approximately -0.126 rad/s^2, and the time needed to bring the wheel to rest is approximately 20.04 seconds.
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Three point charges of +2, −3 − 3 are kept at the vertices A, B and C
respectively of an equilateral triangle of side 20 cm as shown in figure. What should
be the sign and magnitude of the charge to be placed at the midpoint (M) of side BC
so that the charge at A remains in equilibrium?
The net force on the charge at A should be zero, the charge q should be negative, since the charges at B and C are negative. Therefore, the charge q should be -2.25 μC placed at the midpoint M of side BC.
What is Charge?
In physics, charge refers to a fundamental property of matter that describes how it interacts with electric and magnetic fields. All matter is made up of atoms, which in turn are composed of positively charged protons, negatively charged electrons, and neutral neutrons. Charge is carried by the electrons and protons in an atom, and it is measured in coulombs (C).
To keep the charge at point A in equilibrium, the net force on it due to the other charges should be zero. This means that the net force due to charges at B and C should balance each other out.
Let's assume that the charge q is placed at the midpoint M of side BC. We need to find the magnitude and sign of q such that the net force on the charge at A is zero.
Let's first calculate the distance between A and M. Since the triangle is equilateral, all sides are equal to 20 cm.
AM = BC/2 = 10 cm
Now, we can calculate the force on the charge at A due to the charge q at M using Coulomb's law:
F(AM) = k * (2q) / AM^2
where k is the Coulomb's constant.
Similarly, we can calculate the forces on the charge at A due to the charges at B and C:
F(AB) = k * (2 * (-3)) / AB^2
F(AC) = k * (2 * (-3)) / AC^2
Since the triangle is equilateral, AB = AC = 20 cm.
Now, let's consider the x-component of the net force on the charge at A. Since the charges at B and C are symmetrically placed with respect to the y-axis passing through A, the y-component of their forces will cancel out. Therefore, we only need to consider the x-component of their forces:
Fx(net) = F(AM) * cos(60) + F(AB) + F(AC)
where cos(60) = 1/2 is the cosine of the angle between the vectors AM and F(AM).
Since the net force on the charge at A should be zero, we have:
Fx(net) = 0
Substituting the values of F(AM), F(AB), F(AC), and cos(60), we get:
k * (2q) / AM^2 - k * 6 / AB^2 - k * 6 / AC^2 = 0
Simplifying this equation, we get:
2q = 9/2
Therefore, the magnitude of the charge q that needs to be placed at the midpoint M of side BC is:
|q| = 9/4 = 2.25
Since the net force on the charge at A should be zero, the charge q should be negative, since the charges at B and C are negative. Therefore, the charge q should be -2.25 μC placed at the midpoint M of side BC.
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A homemade 2 liter bottle (0.200 kg) rocket is launched up into the air during a physics class. On the way back down a parachute is deployed and creates a drag force from resistance. If the rocket is moving with an acceleration of 2m / (s ^ 2) , what is the drag force created by the parachute ?
The drag force created by the parachute can be calculated using the equation F = 0.5 * ρ * A * V2, where ρ is the density of the air, A is the area of the parachute, and V is the velocity of the rocket.
What is parachute?Parachute is an aircraft device used to slow down a person or object's fall during a jump or a descent from a significant height. The device consists of a canopy made of fabric or nylon which is attached to a harness. The canopy is designed to fill with air as it descends, thus providing drag to slow the descent. Parachutes are commonly used by skydivers and BASE jumpers, as well as by military forces to safely deploy personnel and equipment.
In this case, the density of the air is 1.225 kg/m3, the area of the parachute can be estimated based on the size of the rocket, and the velocity of the rocket can be calculated using the formula V = at, where a is the acceleration and t is the time it takes for the rocket to reach the ground.
Assuming the rocket is launched at an initial velocity of 0 and the time it takes to reach the ground is 5 seconds, then the velocity of the rocket is 10 m/s.
Therefore, the drag force created by the parachute is calculated as:
F = 0.5 * 1.225 kg/m3 * (estimated area of parachute) * (10 m/s)2
F = 0.5 * 1.225 kg/m3 * (0.1 m2) * (10 m/s)2
F = 6.1375 N
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A fish swimming in a horizontal plane has velocity v with arrowi = (4.00 î + 1.00 ĵ) m/s at a point in the ocean where the position relative to a certain rock is r with arrowi = (14.0 î − 2.80 ĵ) m. After the fish swims with constant acceleration for 19.0 s, its velocity is v with arrow = (23.0 î − 1.00 ĵ) m/s.
(a) What are the components of the acceleration of the fish?
ax =
m/s2
ay =
m/s2
(b) What is the direction of its acceleration with respect to unit vector î?
° counterclockwise from the +x-axis
(c) If the fish maintains constant acceleration, where is it at t = 26.0 s?
x =
m
y =
m
In what direction is it moving?
° counterclockwise from the +x-axis
(a) We can find the components of the acceleration of the fish by using the following kinematic equation:
v = u + at
where u is the initial velocity, v is the final velocity, a is the acceleration, and t is the time interval.
Let's find the acceleration of the fish in the x-direction first:
v_x = u_x + a_xt
where v_x is the x-component of the final velocity, u_x is the x-component of the initial velocity, a_x is the x-component of the acceleration, and t is the time interval.
Substituting the given values, we get:
23.0 = 4.00 + a_x * 19.0
Solving for a_x, we get:
a_x = (23.0 - 4.00) / 19.0 = 0.895 m/s^2
Similarly, we can find the acceleration of the fish in the y-direction:
v_y = u_y + a_yt
where v_y is the y-component of the final velocity, u_y is the y-component of the initial velocity, a_y is the y-component of the acceleration, and t is the time interval.
Substituting the given values, we get:
-1.00 = 1.00 + a_y * 19.0
Solving for a_y, we get:
a_y = (-1.00 - 1.00) / 19.0 = -0.105 m/s^2
Therefore, the components of the acceleration of the fish are:
a_x = 0.895 m/s²
a_y = -0.105 m/s²
What is acceleration?The rate of change of velocity of an object over the course of time is defined as acceleration. It is a vector quantity, that also means it has magnitude as well as direction. Acceleration occurs when an object changes its velocity, either by increasing or decreasing its speed or by changing its direction of motion. The following formula may be utilized to calculate an object's acceleration:
a = (v_f - v_i) / t
(b) To find the direction of the acceleration with respect to unit vector î, we can use the following formula:
θ = tan⁻¹(a_y / a_x)
Substituting the values we just found, we get:
θ = tan⁻¹(-0.105 / 0.895) = -6.84°
Therefore, the direction of the acceleration with respect to unit vector î is 6.84° clockwise from the +x-axis.
(c) To find the position of the fish at t = 26.0 s, we can use the following kinematic equations:
x = u_xt + 0.5 a_xt²
y = u_yt + 0.5 a_yt²
where x is the position in the x-direction, y is the position in the y-direction, u_x is the initial velocity in the x-direction, u_y is the initial velocity in the y-direction, a_x is the acceleration in the x-direction, a_y is the acceleration in the y-direction, and t is the time interval.
Let's first find the position of the fish in the x-direction:
x = u_xt + 0.5 a_xt²
Substituting the given values, we get:
x = 14.0 + 0.5 * 0.895 * (26.0 - 19.0)² = 37.4 m
Similarly, we can find the position of the fish in the y-direction:
y = u_yt + 0.5 a_yt²
Substituting the given values, we get:
y = -2.80 + 0.5 * (-0.105) * (26.0 - 19.0)²= -3.17 m
Therefore, the fish is at the position (37.4 m, -3.17 m) at t = 26.0 s.
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Bats chirp at high frequencies that humans cannot hear. They use echoes to detect objects, such as insects, that are as small as one wavelength. A bat emits a chirp at a frequency of 45.4 kHz. Calculate the size in millimeters of the smallest insect that the bat can detect. (The speed of sound waves in air is 340 m/s.)
The 25 size in millimeters of the smallest insect that the bat can detect.
What is wavelength ?
The distance between identical points (adjacent crests) in adjacent cycles determines how far a waveform signal has travelled in space or over a wire. In wireless systems, this length is often expressed in metres (m), centimetres (cm), or millimetres (mm).
What is speed ?
The rate of a directionally changing object's location. The SI unit of speed is created by combining the fundamental units of length and time. Meters per second (m/s) is the unit of speed in the metric system.
Therefore, 25 size in millimeters of the smallest insect that the bat can detect.
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A light ray travelling through air approaches a crown glass block at 49° and refracts at 28.1°. What is the refractive index of the crown glass block?
The refractive index of the crown glass block can be calculated using Snell's law, which states that the ratio of the sines of the angles of incidence and refraction is equal to the ratio of the velocities in the two media.
What is refraction ?Refraction is the bending of light that occurs when it passes through a medium. It occurs when light moves from one medium to another and is caused by the change in the speed of light as it passes through different mediums. When light passes through a medium, the light waves are bent and the angle of the wave changes. This wave bending is what causes the phenomenon of refraction.
In this case, the ratio of the sines of the angles of incidence and refraction is equal to the ratio of the velocities in the two media, which is the refractive index of the crown glass block.
The refractive index of the crown glass block is calculated as follows:
Refractive index = Sin(49°) / Sin (28.1°)
Refractive index = 1.75
Therefore, the refractive index of the crown glass block is 1.75.
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What will happen to the velocity and momentum of each ball when the small ball hits the heavier large ball?
Answer:
it will stop
Explanation:
In a vehicle traveling at 20 miles per hour, the force of your car impacting a surface is ______ times as great as at 10 MPH. Two Four Six Twelve
At 20 miles per hour, the force of your car impacting a surface is four times as great as at 10 MPH.
Impact surface means a surface that either moves or comes in contact with a moveable surface and is subject to damage by repeated sudden force, impact, or contact, such as doors and windows with certain parts of their frames.
The term “impact surface” means an interior or exterior surface that is subject to damage by repeated impacts. an impinging or striking especially of one body against another. : a forceful contact or onset. also : the impetus communicated in or as if in such a contact. : the force of impression of one thing on another .
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help me with this quickly please
The amount of heat energy gained by the sample of copper is 15600 J
How do I determine the heat energy gained?First, we shall carefully list out the given parameters from the table in the question above. This is given below:
Mass of copper (M) = 2.0 KgSpecific heat capacity of copper (C) = 390 J/KgK Initial temperature of copper (T₁) = 253 KFinal temperature of copper (T₂) = 273 KTemperature change (ΔT) = 273 – 253 = 20 KHeat gained (Q) =?The heat gained by the sample of copper cab be obtained as follow:
Q = MCΔT
Q = 2 × 390 × 20
Q = 15600 J
Thus, from the above calculation, we can conclude that the heat gained is 15600 J (none of the options are correct)
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Consider a particle with initial velocity v⃗ that has magnitude 12.0 m/s and is directed 60.0 degrees above the negative x axis.
What is the acceleration of a projectile when it reaches its highest point? What is its acceleration just before and just after reaching this point?
The acceleratiοn οf a prοjectile when it reaches its highest pοint is 0 m/s². And its acceleratiοn just befοre and just after reaching this pοint 10.39 m/s² at time 2.08 s.
What are the initial and final speeds?The speed at which an οbject travels when gravity exerts its first fοrce οn it is referred tο as its initial velοcity. In cοntrast, the speed and directiοn οf a mοving οbject fοllοwing its maximum acceleratiοn are measured by the final velοcity, a vectοr quantity.
What is a vectοr οf initial velοcity?The twο cοmpοnents οf a vectοr are used tο describe the single directiοn οf the vectοr's influence. The initial velοcity οf a prοjectile has bοth a hοrizοntal and a vertical cοmpοnent if it is launched at an angle tο the hοrizοntal.
Let's determine the [tex]\theta[/tex] angle of launch with respect to the positive x-axis.
[tex]\theta = 180^o-60.0^o = 120^o \\[/tex]
We will determine the particle's time οf flight from the equation of the vertical displacement of a prοjectile.
[tex]y = v_i\,\sin (\theta) \,t_g - \dfrac{1}{2} g\, t_g ^2 \,\,\,\,\,\,\,(1)\\[/tex]
Where:
y is the vertical displacement, [tex]{v_i[/tex] is the initial speed. [tex]\theta[/tex] is the launch angle. [tex]t_g[/tex] is the flight time. g is the acceleration due tο gravity.
If the initial vertical position is equal tο the final vertical position, then the vertical displacement is equal tο zero.
Substituting the known data in equatiοon (1)
[tex]\rm 0 = (12.0\,m/s)\sin (120^o)t_g - \dfrac{1}{2}(10\,m/s^2)}t_g ^2\\ 0 = {\rm 10.3923\,m/s^2 -(5\,m/s^2)}t_g \\[/tex]
[tex]\rm t_g = \dfrac{\rm 10.3923\,m/s^2}{\rm 5\,m/s^2} = {\rm 2.08\,s} \\[/tex]
Thus, The acceleration of a prοjectile when it reaches its highest point is 0 m/s². And its acceleratiοn just before and just after reaching this point 10.39 m/s² at time 2.08 s.
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A drag racer accelerated from 0m/s to 200m/s in 5 seconds
The acceleration of the drag racer when he attains the speed of 200 m/s from 0 m/s in just five seconds is 40 m/s^2.
Acceleration refers to the rate at which the moving object acquires a certain velocity in a specific period of time. It is denoted by 'a'. It is also equal to ratio of change in velocity to the difference of time taken.
In the given scenario, the drag racer attains a speed of 200 m/s from 0 m/s. This means the change in velocity is given as follows:
Change in velocity = 200 - 0 = 200 m/s
Since the time taken by the drag racer to attains this speed is 5 seconds, therefore acceleration = change in velocity/ time
Acceleration = 200/5 = 40 m/s^2
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Refer to complete question below:
A drag racer accelerated from 0 m/s to 200 m/s in 5seconds . What was the acceleration of the drag racer?