Answer:
Explanation:
The overall displacement can be found using the Pythagorean theorem, which states that in a right triangle, the square of the hypotenuse (the overall displacement) is equal to the sum of the squares of the other two sides.
Let's call the displacement in the northwest direction "x" and the displacement in the east direction "y". The overall displacement can be found using the equation:
√(x^2 + y^2) = √((-10)^2 + (40)^2 + (-60)^2) = √(1600 + 1600 + 3600) = √(7000) = 84.85 km
So the overall displacement of the car from the starting point is approximately 84.85 km.
Calculate the de Broglie wavelength associated with an electron accelerated through a potential difference of 1 kV.
The de Broglie wavelength associated with an electron accelerated through a potential difference of 1 kV will be 1.242 nm.
de Broglie wavelength is λ
λ = hC/eV₀ [V₀ = 1 kV]
λ = (hC/e) (1/V₀) [hC/e = 12.42 × 10⁻⁷]
λ = (12.42 × 10⁻⁷) (1/10³)
λ = 1.242 × 10⁻⁹ m
λ = 1.242 nm
Therefore, the de Broglie wavelength associated with an electron accelerated through a potential difference of 1 kV will be 1.242 nm.
de Broglie wavelength is an essential concept while exploring quantum mechanics. The wavelength (λ) that is associated with an object in reference to its momentum and mass is learned as the de Broglie wavelength. A particle's de Broglie wavelength is inversely proportional to its force.
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A 10 kg object dropped from a certain window strikes the ground in 2.0 s. Neglecting air resistance, a 5 kg object dropped from the same window strikes the ground in?
A 10 kg object dropped from a certain window strikes the ground in 2.0 s. Neglecting air resistance, a 5 kg object dropped from the same window strikes the ground in 1.41 seconds.
The time it takes an object to fall to the ground is determined by its initial velocity, which is zero, and its acceleration due to gravity, which is constant at 9.8 m/s² on the surface of the Earth.
The distance fallen can be calculated using the equation:
d = 1/2 × a × t²,
where d is the distance, a is acceleration and t is time.
We can assume that the height from which both the 10 kg and 5 kg objects were dropped is the same, so the distance fallen is the same for both. We can rearrange this equation to solve for time:
t = √(2d/a)
t = √(2 × d / 9.8)
t = √(2 × 2.0² / 9.8)
t = √(8 / 9.8)
t = 1.41 s
Therefore the 5 kg object strikes the ground in 1.41 seconds.
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refrigerant migration into the compressor crankcase will not usually occur if the temperature where the compressor is located is kept well above the
Refrigerant migration into the compressor crankcase will not usually occur if the temperature where the compressor is located is kept well above the refrigerant's saturation temperature.
Refrigerant migration occurs when the refrigerant vapor in the system condenses into a liquid and migrates into the compressor crankcase oil. If the temperature around the compressor is kept well above the saturation temperature, the refrigerant remains in a vapor state and does not condense, thereby reducing the likelihood of refrigerant migration into the compressor crankcase.
It is important to maintain the proper temperature in the compressor area to prevent refrigerant migration as it can cause several issues such as decreased compressor efficiency, reduced system performance, and increased oil degradation.
Additionally, the presence of refrigerant in the oil can cause oil degradation and system contamination, which can ultimately lead to compressor failure. Therefore, it is important to keep the temperature in the compressor area well above the refrigerant's saturation temperature to prevent refrigerant migration and ensure the longevity and proper operation of the refrigeration system.
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Construct a qualitative work-energy bar chart for a process that is consistent with the equation below. Then describe in words and with a sketch a process that is consistent with both the equation and the bar chart.
(1/2) (400 N/m) (0.20 m)^2= (1/2) (0.50 kg) v^2 + (0.50 kg) (9.8 N/kg ) (0.80 m)
The total work done is equal to the work done by the spring[tex](400 N/m \times 0.20 m)[/tex] Plus the work done by gravity[tex](0.50 kg \times 9.8 N)[/tex]. The total work done is equal to [tex](1/2) (0.50 kg) v^2 + (0.50 kg) (9.8 N/kg ) (0.80 m)[/tex].
What is the gravity?A force of attraction known as gravity exists between any two mass-containing objects. It is the force responsible for keeping the Earth and other planets orbiting the Sun, and for keeping us firmly rooted to the ground.
Gravity is what keeps us and everything else on the ground and not floating off into space.
A 0.50 kg block is placed on top of an inclined plane with a height of 0.80 m and a spring with a spring constant of 400 N/m is connected to the block. The block is then released from a height of 0.20 m above the ground.
The block then slides down the inclined plane while compressing the spring and is eventually brought to rest by the force of gravity.
Therefore, The total work done is equal to the work done by the spring [tex](400 N/m \times 0.20 m)[/tex] Plus the work done by gravity (0.50 kg x 9.8 N). The total work done is equal to [tex](1/2) (0.50 kg) v^2 + (0.50 kg) (9.8 N/kg) (0.80 m).[/tex]
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What are centripetal acceleration and centripetal force?derive their equations.
Answer:
Explanation:
Centripetal acceleration is the acceleration that points towards the center of a circular path and is responsible for keeping an object moving in a circular path. The equation for centripetal acceleration is:
a_centripetal = v^2 / r
where v is the speed of the object and r is the radius of the circular path.
Centripetal force is the force that acts on an object moving in a circular path and is directed towards the center of the circular path. It is equal to the product of the mass of the object and its centripetal acceleration. The equation for centripetal force is:
F_centripetal = m * a_centripetal
where m is the mass of the object.
An object is orbiting at a distance of 10,000 km from the center of a planet. The gravitational force between the object and the planet is 10.0 N. What would the gravitational force be if the object were orbiting at a distance of 5,000 km?
A. 2.5 N
B. 5 N
C. 20.0 N
D. 40.0 N
SHOW WORK PLEASE!!
If the item were orbiting at a distance of 5,000 km, there would be a gravitational force of 40 N.
What is gravity, and how does it work?Gravitational force is the name for the force that the earth exerts on a body. Among other instances of motion caused by gravitational force are the leaves and fruits that fall from trees and land on the ground, the water that flows down rivers, and a ball that is tossed up that travels to a height before landing back on the ground.
A substance's gravitational pull is:
F = GMm / r²
Where G is the gravitational constant over all space and time,
A single object's mass is M. (the planet),
The weight of the opposing item is m.
r is the separation between the items.
F is equal to 10 N at 10,000 km.
(10 N) = GMm / (10,000 km) (10,000 km)
²
GMm=109 N km2
Whenever r is 5,000 km:
F = (10⁹ N km²) / (5000 km) (5000 km)
F = 40 N.
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An airplane with an airspeed of 140 km/h lands on a runway where the wind speed is 40 km/h . What is the landing speed of the plane if the wind is head on? as well as If the wind is a tailwind, coming from behind the airplane? and lastly What would be the landing speed of the 140- km/h plane landing in a headwind of 140 km/h ?
When we use the concept of the resultant speed to obtain the landing speed we have it as 146 m/s.
What is the landing speed?We would need to resort to talking about the resultant speed in this context. We know that the speed that the airplane would use to land is what we call the resultant speed of the air plane as we have it here.
We can now say that;
Resultant speed =√ (140)^2 + (40)^2
= 146 m/s
Thus we see that the speed of the airplane when the airplane is found to be landing is about 146 m/s.
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A student throws a 0.140-kg ball straight upwards to a height of 3.10 m. How much work did the student do?
Answer:
The student did 4.54 joules of work. This can be determined by using the formula W = mgh, where W is the work done, m is the mass of the ball, g is the acceleration due to gravity, and h is the height to which the ball is thrown. In this case, m = 0.140 kg and h = 3.10 m, so W = 0.140 x 9.8 x 3.10 = 4.54 joules.
To calculate the acceleration of an object moving in a straight line, divide the change in (blank) by the time during which the acceleration occurs.
To calculate the acceleration of an object moving in a straight line, divide the change in velocity by the time during which the acceleration occurs.
How to find acceleration ?The rate at which velocity changes is called acceleration. Acceleration typically indicates a change in speed, but not necessarily. An item that follows a circular course while maintaining a constant speed is still moving forward because the direction of its motion is shifting.
To calculate acceleration, you need to divide the change in velocity (delta v) by the change in time (delta t) during which the acceleration occurs. The formula for acceleration is a = Δ v / Δ t.
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What is the structure of the following statement? "Our city is plagued with polluted water, and until we pass stricter laws about dumping into the river, it is going to continue."
A. Cause and effect
B. Description
C. Problem and solution
D. Sequence
The structure of the statement is cause and effect.
option A is the correct answer.
Why is the statement "cause and effect"?The structure of the statement is "cause and effect" because it describes a situation where one thing (polluted water) is the result of another (lack of stricter laws about dumping into the river).
The statement suggests that the cause (lack of stricter laws) will continue to result in the same effect (polluted water) unless some action is taken to change the cause. In this way, the statement explains the relationship between the two events or situations and how one leads to the other.
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8. using the information given in chapters 2 and 3, describe the conditions that induce brittle fracture in an otherwise ductile piece of metal.
Rapid deformation rates, cooler temperatures, the existence of a high stress concentration degree of stress, radiation damage, and corrosion can all result in brittle fracture (including hydrogen embrittlement).
What degree of temperature is considered?When temperatures exceed 90 degrees, you are in "hot" terrain from just a strictly thermometric perspective.
Is 37 temperature hot or cold?The average body temperature is between 36 and 37 degrees Celsius, however this varies based on age, exercise levels, time of day, and measuring method. Colds, the flu, and COVID-19 are examples of viral respiratory illnesses that can raise a person's temperature.
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An electron initially at rest accelerates through a potential difference of 1 V, gaining kinetic energy KEe, whereas a proton, also initially at rest, accelerates through a potential difference of - 1 V, gaining kinetic energy KEp. Which of the following relationships holds?
The electron gains more kinetic energy than the proton when accelerated through a potential difference of 1 V.
The relationship between the kinetic energies of the electron and proton can be determined using the formula for the kinetic energy of a particle:
[tex]KE = (1/2)mv^2[/tex]
[tex]V = (q/m)d[/tex]
where V is the potential difference, q is the charge, m is its mass, and d is the distance .
For the electron, [tex]V = 1 V[/tex]and[tex]q/m = -1.6 x 10^-19 C/kg[/tex], so its final velocity is:
[tex]v_e = sqrt((2qV)/m) = sqrt((2*(-1.6 x 10^-19)*1)/9.11 x 10^-31) = 5.93 x 10^6 m/s[/tex]
For the proton, [tex]V = -1 V and q/m = 1.6 x 10^-19 C/kg,[/tex] so its final velocity is:
[tex]v_p = sqrt((2qV)/m) = sqrt((2*(1.6 x 10^-19)*(-1))/1.67 x 10^-27) = 7.16 x 10^5 m/s[/tex]
Substituting these values into the formula for kinetic energy, we get:
[tex]KE_e = (1/2)9.11 x 10^-31(5.93 x 10^6)^2 = 1.63 x 10^-17 J[/tex][tex]KE_p = (1/2)1.67 x 10^-27(7.16 x 10^5)^2 = 0.84 x 10^-17 J[/tex]
Therefore, we have:
[tex]KE_e > KE_p[/tex] , This is because the electron has a much smaller mass than the proton, so it experiences a much larger acceleration and gains more velocity and kinetic energy.
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In order to find the depth of a well, you drop a stone into it and time its fall. It hits the water after falling for 1.7s the depth of the well is about _____.
If the stone hits the water in the well after falling for 1.7s then the depth of the well is about 14.16m.
The time required by the stone to fall and reach the bottom of the well is 1.7s.
Now, we know from the equation of motion,
H = ut + 1/2at²
Where,
H is the depth of the well,
u is the initial speed of the well that is zero in our case,
t is the time taken by the stone to hits the water.
Now, putting all the values,
H = 0.5 x 9.8 x 1.7 x 1.7
H = 14.16 m.
The depth of the well is 14.16m.
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Suppose you have two conductors of different sizes and different initial charges. You connect them with a wire. What one measurement will then be equal for both of them?
The charge of the two capacitors will be equal when they are connected. Similarly their electrical potential will be equal. The charge distribution to attain equilibrium is making them equally charged.
What is capacitance?The capacitance of a device is its ability to store charge. Such devices are called capacitors. The capacitance of a capacitor is dependent on the electrical potential and charge as well as their size and shape.
According to the law of conservation of electrical charges, the charge lost by one body is equal to the charge gained by the other body. Hence, when two differently charged capacitors when connected each other, the start charge transfer until they attain equal charges.
Therefore, the measurement that is equal for the capacitors here connected by the wire is charge.
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Charge will be equal on both conductors after connecting with wire.
Electric charge is the physical property of matter that causes that matter to experience a force when placed in an electromagnetic field. Electric charge can be positive or negative.
Given,
Two conductors of different sizes and different initial charges are connected with a wire,
Connecting with a wire will start flow of charge until charges on both conductors become equal.
Hence, charge will then be equal for both conductors.
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When striking, the pike, a predatory fish, can accelerate from rest to a speed of 4.2 m/s in 0.14 s . a. What is the acceleration of the pike during this strike? Express your answer in meters per second squared. b. How far does the pike move during this strike? Express your answer in meters.
The pike's acceleration during the strike is 30m/s² and the pike moves 0.049 meters.
What is acceleration?An object's rate of change in velocity (speed and direction) over a predetermined amount of time is known as acceleration.
How do you determine it?a. The following acceleration formula can be used to determine the pike's rate of acceleration during the strike:
a = Δv / Δt
where v denotes the velocity change and t the time change.
When we enter the values provided, we get:
acceleration = (4.2 m/s - 0 m/s) / 0.14 s = 30m/s²
The pike's acceleration during the hit is 30m/s².
b. The formula for distance based on initial velocity, final velocity, acceleration, and time can be used to calculate the distance the pike travels during the strike:
Distance = (1/2) * Acceleration * Time * Initial Velocity * Time
Given that the pike's initial speed is 0 m/s, the distance can be computed as follows:
Distance = 0 m/s * 0.14 s + (1/2) * 30 m/s * 0.14 s
=0.049 m.
Due to this hit, the pike moves 0.049 meters.
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A solid rectangular block measures
[tex]1m \times 0.8m \times 0.6m[/tex]
and floats freely in a liquid of density 1354.6kg/m3.if the depth of the liquid 150.45m up the blocks side , find the density of the block
The block has a density of 16309.2 kg/m3.
Why is density important?The density of a material is an indicator of how heavy it is in relation to its size. If an object is submerged in water, it will float if its density is lower than that of the water, and sink if it has a higher density. A differentiating characteristic that is unrelated to a substance's volume is its density.
We must apply Archimedes' principle, which states that the weight of the fluid that is displaced by an object when it is immersed in a fluid equals the buoyant force acting on the item.
Let's start by determining the block's weight:
mass = density * volume
= density_block * length * width * height
weight_block = mass * g
= density_block * length * width * height * g
where g is the acceleration due to gravity (9.81 m/s²).
Next, let's find the weight of the displaced fluid:
volume_submerged = length * width * depth_submerged
weight_fluid = density_fluid * volume_submerged * g
Since the block is floating freely, the weight of the displaced fluid must be equal to the weight of the block:
density_block = density_fluid * volume_submerged / (length * width * height)
Plugging in the given values, we get:
density_block = 1354.6 kg/m³ * (0.8 m * 0.6 m * 150.45 m) / (1 m * 0.8 m * 0.6 m)
= 16309.2 kg/m³.
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A solid nonconducting sphere is inside a solid nonconducting spherical shell, as shown in the figure. A total charge +Q is evenly distributed throughout the sphere and is also evenly distributed throughout the shell. Which of the following statements is a correct claim about the electric field at point X between the sphere and shell and has a valid supporting statement? (A) The electric field points to the left, because the electric field from sphere is zero and the electric field from the shell is directed to the left (B) The electric field points to the left, because a Gaussian sphere concentric with the sphere X on its surface only encloses the charge on the inner sphere. c) The electric field points to the right, because the electric field from the shell has a larger magnitude that the electric field from the sphere d) The electric field is zero, because a Gaussian sphere concentric with the sphere with X on its surface encloses zero net charge. (E) The electric field is zero, because point X is inside a nonconducting shell.
The electric field is zero, because a Gaussian sphere concentric with the sphere with X on its surface encloses zero net charge. The correct claim is (D).
The electric field at point X is the vector sum of the electric fields from the sphere and the shell. However, since the total charge on both the sphere and the shell is evenly distributed, the electric field from the sphere will be exactly canceled by the electric field from the shell at any point inside the sphere. Therefore, the net electric field at point X will be zero.
This can be proven by using a Gaussian surface, which is a hypothetical sphere drawn around point X. Since the electric field is spherically symmetric, we can choose the Gaussian surface to be a spherical shell centered at X.
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Bob and Alice both throw baseballs vertically upwards from the same starting height. Both balls take the same amount of time to go up to their maximum height. Which of the follow is true (select all that apply)A. Both Bob and Alice must have thrown the balls with the same speedB. Bob could have thrown his ball with a larger speed than AliceC. Alice could have thrown her ball with a larger speed than BobD. Both balls must have reached the same maximum heightE. Alice's ball could have reached a large maximum height compared to Bob'sF. Bob's ball could have reached a large maximum height compared to Alice's
A. "Both Bob and Alice must have thrown the balls with the same speed" and D. "Both balls must have reached the same maximum height" are true statements.
When two objects are thrown vertically upwards with the same starting height and take the same amount of time to reach their maximum height, it can be concluded that both objects were thrown with the same speed, as their time of flight is dependent on their initial velocity. Additionally, since they started from the same height, their maximum height must also be the same.
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What is a trench? Where would trenches typically be located?
Answer:
The deepest part of earth or oceans. They are most commonly found in oceans however
Explanation:
Which type of spectrum can we use to determine the chemical composition of
interstellar gas clouds?
In the electromagnetic spectrum, EM radiation includes radio waves, visible light, and gamma rays.
What is a spectrum?
The characteristic wavelengths of electromagnetic radiation (or a subset thereof) emitted or absorbed by a material, atom, or molecule are called spectra. A spectrum is a state that can vary continuously along a continuum and is not limited to a set of values. After passing through a prism, visible light takes on a rainbow of colors, as the term was originally used scientifically in optics.
We study the electromagnetic radiation, or EM radiation, that interstellar clouds emit and receive from them. The range of this EM radiation includes radio waves, visible light and gamma rays in the electromagnetic spectrum.
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what happens to the momenta of a system of two dynamics carts that start out at rest and then explode?
The momenta of the two dynamic carts that start out at rest and then explode would be altered drastically.
What is dynamic carts?Dynamic carts are shopping carts that are programmed to track data about customer purchases and preferences. This data is used to provide personalized product recommendations and discounts to customers. Dynamic carts are powered by advanced algorithms that analyze customer purchasing behavior and analyze it in real-time.
When the carts explode, the energy released from the explosion will create an equal and opposite reaction, pushing each cart in the opposite direction. This means that the momentum of each cart will be altered depending on the amount of energy released from the explosion. The total momentum of the system will remain the same, since the momentum of the first cart will be equal and opposite to that of the second cart.
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If a force of 160 ± 6 N is applied to an area of 24 ± 3 cm², determine the pressure and the uncertainty in its calculation?
Answer:
Explanation:
The pressure is calculated by dividing the force by the area:
P = F / A = 160 N / 24 cm² = 6.67 N/cm²
The uncertainty in the calculation of pressure can be determined by propagating the uncertainties in the force and area measurements. According to the formula for uncertainty propagation, the fractional uncertainty in the pressure calculation is:
ΔP / P = √((ΔF / F)^2 + (ΔA / A)^2)
Plugging in the values:
ΔP / P = √((6 N / 160 N)^2 + (3 cm² / 24 cm²)^2)
ΔP / P = √(0.0375) = 0.195
So the fractional uncertainty in the pressure calculation is 0.195 or 19.5%.
To find the absolute uncertainty in the pressure, multiply the fractional uncertainty by the pressure:
ΔP = P * ΔP / P = 6.67 N/cm² * 0.195 = 1.29 N/cm²
So, the pressure is 6.67 ± 1.29 N/cm².
A parallel plate capacitor with plates of area (A) and plate separation (d) is charged so that the potential difference between its plates is (V). While the capacitor is still connected to the power source and its plate separation is decreased to d/4, which statement is correct? The charge on the plates is decreased to one-fourth its original value. The capacitance is unchanged. The voltage between the plates is decreased to one-fourth its original value. The charge on the plates is increased four times its original value. The voltage between the plates is increased four times its original value. The charge on the plates is unchanged.
The correct statement is (d) The charge on the plates is increased four times its original value.
What is parallel plate capacitor?
A parallel plate capacitor is a type of capacitor that consists of two parallel conductive plates separated by a dielectric material. It is a type of capacitor used in electrical circuits to store electrical energy. The plates are usually made of metal and the dielectric material is usually a thin non-conductive material like paper or plastic. The size of the capacitor is determined by the distance between the plates and the dielectric material.
This is because the charge on the capacitor plates is proportional to the voltage across the plates and the capacitance, which is given by the formula C = ε_0 * A / d, where ε_0 is the electric constant and A is the area of the plates.
When the plate separation is decreased to d/4, the capacitance of the capacitor becomes C' = ε_0 * A / (d/4) = 4 * ε_0 * A / d, and thus the charge on the plates becomes Q' = C' * V = 4 * Q.
Therefore, The charge on the plates is increased four times its original value is the correct answer.
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A swimmer swims north across a river that flows at 0.20m/s from west to east. If the speed of the swimmer is 0.15m/s relative to still water, what is the swimmer's velocity relative to the river bank?
Answer:
The swimmer's velocity relative to the river bank is 0.35 m/s east.
Explanation:
This can be determined by adding the velocities together in the direction of the current. The velocity of the swimmer relative to still water (0.15m/s) and the velocity of the river (0.20m/s) must be added together in the eastward direction, resulting in a total velocity of 0.35m/s east.
Suppose a 0.3-kg mass on a spring that has been compressed 0.10 m has elastic potential energy of 1 J. What is the spring constant?
a. 10 N/m
b. 20 N/m
c. 200 N/m
d. 300 N/m
The spring constant of the spring is 200 N/m.
option C.
What is the spring constant of the spring?The spring constant of the spring is calculated by applying the following formula as shown below;
.
Mathematically, the formula for energy stored in a spring is given as;
U = ¹/₂kx²
where;
k is the spring constantx is the extension of the springk = ( 2U ) / ( x² )
k = ( 2 x 1 J ) / ( 0.1 m )²
k = 200 N/m
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Object x is dropped from a height of 65m at the same instant object y is thrown vertically upwards with a velocity of 5m^-1. Calculate the distance at which the two objects pass each other
The path travelled by a projectile is known as its trajectory. The distance at which the two objects pass each other is 16.9 m.
What is a projectile?Any object which is thrown into space and the only force acting on it is the force of gravity. The motion of a projectile is known as the projectile motion.
The height covered by the projectile from ground is:
h = ut - 1/2 gt²
h = 5t - 1/2 × 9.8 × t²
h = 5t - 4.9t² (1)
When projectile is thrown downward, u = 0
65 - h = 1/2 gt²
65 - (5t - 4.9t² ) = 4.9t²
65 = 5t
t = 65/5 = 13 s
h = 65t - 4.9t²
= 65 × 13 - 4.9 × 169
= 16.9 m
Thus the distance at which the two objects pass each other is 16.9 m.
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A student who weighs 558 N climbs a stairway (vertical height of 3.3 m) in 29 s.
Answer:
Work is defined as force x displacement in the direction of the force. In this case the force is 558 N and the displacement is 3.3 m, so the work is 3.3 m x 558 N = 1,841.4 joules.
Power is work per unit of time. 1,841.4 J /29 s = 63 W.
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Two 17cm -long thin glass rods uniformly charged to +16nC are placed side by side, 4.0 cm apart. What are the electric field strengths E1, E2, and E3 at distances 1.0 cm, 2.0 cm, and 3.0 cm to the right of the rod on the left, along the line connecting the midpoints of the two rods?
The required electric field strengths are calculated to be E₁ = E₃ = 112.88 × 10³ N/C, E₂ = 0.
Length of the two glass rods is given as, L = 17 cm = 0.17 m
Charge on them = 16 nc = 16 × 10⁻⁹ C
Distance between the rods is given as 4 cm = 0.04 m.
Electric charge due to a single glass rod can be given by,
E = Q/ (2π ε₀ r L) ----(1)
(1) can be used to determine E₁, E₂, E₃ because the points lie within the two rods hence the net electric field produced will be equal to the difference in electric fields produced.
E₁ = Q/ (2π ε₀ r L) × [1/0.01 - 1/0.03]
⇒ (16 × 10⁻⁹)/(2× 3.14× 8.85 × 10⁻¹² × 0.17) × (66.67)
⇒ (16× 66.67 × 10³)/(9.45) = 112.88 × 10³ N/C
Let us find E₂,
E₂ = Q/ (2π ε₀ r L) × [1/0.02 - 1/0.02] = 0
And E₁ = E₃.
Thus, E₁ = E₃ = 112.88 × 10³ N/C, E₂ = 0.
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During a very quick stop, a car decelerates at 7.6 m/s2. Assume the forward motion of the car corresponds to a positive direction for the rotation of the tires (and that they do not slip on the pavement).
Randomized Variablesat = 7.6 m/s2
r = 0.26 m
ω0 = 95 rad/s (a) What is the angular acceleration of its tires in rad/s2, assuming they have a radius of 0.26 m and do not slip on the pavement?
(b) How many revolutions do the tires make before coming to rest, given their initial angular velocity is 95 rad/s ?
(c) How long does the car take to stop completely in seconds?
(d) What distance does the car travel in this time in meters?
(e) What was the car’s initial speed in m/s?
The angular acceleration of its tires is 26.23 rad/s².
The number of revolutions is by the tire is 24.57 rev.
The time it takes the car to stop is 48.2 s.
The distance of the car will be calculated in d = v0 × t + (1/2) × a × t²
And the car's initial speed in v0.
How to calculate angular acceleration?a) The formula for angular acceleration (α) can be calculated as α = r/a, where r is the radius of the tire and a is the linear acceleration. So, in this case, α = 0.26 / 7.6 = 26.23 rad/s².
b) The formula for angular velocity (ω) at a given time can be calculated as ω = ω0 + αt or ω² = ω²0 + 2αΔΘ , where ω0 is the initial angular velocity and t is the time. To find the number of revolutions, find the time it takes for the angular velocity to reach 0. The equation would be 0 = 95 + 1.97t. ω²= 2 x 26.23ΔΘ. = 9025 = 58.46ΔΘ
ΔΘ = 9025 / 58.46 = 154.375 rad. n = ωt / (2π). = 154.375/2π = 24.57 rev.
c) We can find the time it takes for the tires to come to rest by solving for t in the equation 0 = 95 + 1.97t. So, t = 95 / 1.97 = 48.2 s.
d) The distance traveled by the car can be calculated as d = v0 × t + (1/2) × a × t^2, where v0 is the initial speed and a is the linear acceleration. However, as the initial speed is not given, the distance cannot be determined.
e) The initial speed (v0) cannot be determined as it is not given in the problem.
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A lead weight falls from a height of 6 m onto a muddy surface. It comes to rest after penetrating 0.4 cm into the surface. What was the magnitude of the average acceleration during the impact? How long did it take to stop?
The duration of motion is 1.11 seconds, and the average acceleration during impact is 9.8 m/s2.
Average lead weight acceleration during impact:
The gravitational pull of 9.8 m/s2 will cause the lead weight to descend.
Lead weight's time of motion is given by t = 2h/g.
where:
The entire height of the fall is given by h, which is equal to 6 metres plus 0.4 centimetres, or 6.004 metres per second.
t = 1.11 s
As a result, the period of motion is 1.11 s, and the average acceleration during impact is 9.8 m/s2.
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