Answer:
Explanation:
Yes, the settings related to electric and magnetic fields need to be changed to select positrons with the same speed as electrons in a velocity selector.
A velocity selector is a device that selects charged particles of a specific speed. It consists of perpendicular electric and magnetic fields. The electric field accelerates charged particles, while the magnetic field deflects the particles in a circular path.
To select positrons with the same speed as electrons in a velocity selector, the direction of the magnetic field needs to be reversed, as positrons have the opposite charge to electrons and will therefore be deflected in the opposite direction.
The diagram below shows the setup of a velocity selector for electrons and how it needs to be modified to select positrons with the same speed:
Velocity Selector Diagram
In the original setup for electrons, the magnetic field is directed into the page, while the electric field is directed upwards. Electrons of a specific speed will travel in a circular path and exit the selector through a slit at the top.
To select positrons with the same speed, the direction of the magnetic field needs to be reversed, so that it is directed out of the page. This will cause the positrons to travel in a circular path in the opposite direction to electrons, and they will also exit through the slit at the top. The electric field can remain in the same direction, as it only serves to accelerate the charged particles.
determine a formula for velocity, period, and total energy of a hydrogen-like atom of atomic number z
The velocity, period, and total energy of a hydrogen-like atom with atomic number z can be calculated with the following formulas.
Velocity = 2*z²/(z²+1)
Period = 4π²/(z²*(z²+1))
Total Energy = -z²/2
The formula for velocity, period, and total energy of a hydrogen-like atom of atomic number z is given as follows: Velocity: v = Zc/n ... (1)Period: T = 2πa/v ... (2)
Total energy: E = -me^4z^2/8εo^2h^2n^2 ... (3)Where ,v is the velocity of the atom is the principal quantum number T is the period of the atom a is the radius of the orbit E is the total energy of the atom me is the mass of the electronεo is the permittivity of free space h is Planck's constant c is the speed of light.
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calculate the bearing stress in a screw with mean diameter 6 mm and pitch 1 mm that is carrying a load of 275 n. the number of engaged threads is 3
The bearing stress in the given screw is 3.32 N/mm².
The bearing stress for a screw with a mean diameter of 6 mm, a pitch of 1 mm, and 3 engaged threads carrying a load of 275 n is calculated using the formula:
Bearing Stress (σ) = (Load / (π * Mean Diameter * No. of Engaged Threads))
σ = (275 N / (π * 6 mm * 3))
σ = 23.31 MPa (megapascals)
The bearing stress in a screw with mean diameter 6 mm and pitch 1 mm that is carrying a load of 275 N can be calculated as follows:Given,Mean diameter, d = 6 mmPitch, p = 1 mmLoad, W = 275 NNumber of engaged threads, n = 3The formula to calculate the bearing stress is given by;`Bearing stress = W/(A * n)`Where A is the area of the threaded section of the screw. It is given by;`A = (π/4) * (d - 0.9382p)²
`Now, substitute the given values in the formula for A.`A = (π/4) * (6 - 0.9382 × 1)²`Solving the above equation, we get`A = 26.22 mm²`Now, substitute the values of A, W, and n in the formula for bearing stress.`Bearing stress = W/(A * n)``= 275/(26.22 × 3)``= 3.32 N/mm²`
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A pilot in an air Niugini travelling at 400km/h north sees an airlines aeroplane directly in front of her travelling south at 300 km/h. What is the speed of the airlines aeroplane relative to the pilot in the air Niugini aeroplane?
To find:-
The relative velocity.Answer:-
We are here given that two aeroplanes are travelling in opposite directions to each other that is North and South .
Speed to pilot traveling towards north is ,
[tex]\implies v_N = 400\ km/hr \\[/tex]
Speed of pilot traveling towards south is ,
[tex]\implies v_S = 300\ km/hr \\[/tex]
Since they are traveling opposite directions the relative speed will be the sum of their speeds that is ,
[tex]\implies v_{relative} = 300km/hr + 400 km/hr \\[/tex]
[tex]\implies \underline{\underline{ v_{relative}= 700km/hr}} \\[/tex]
Hence the relative speed is 700km/hr .
and we are done!
Use the work energy theorem to rank the final kinetic energy of a ball based on the initial kinetic energy Ki, the magnitude of a constant force F on the ball, the displacement of the ball, d and the angle, theta between the displacement of the ball and the net force on the ball. Rank from greatest kinetic energy (1) to least kinetic energy (4).
a) Ki=150J F=10N d=15m theta=90 degrees
b) Ki=300J F=200N d=1.5m theta=180 degrees
c) Ki=200J F=25N d=4m theta= 0 degrees
d) Ki=450J F=15N d=30m theta=150 degrees
Explanation:
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moving water can be used as an energy source. select all the characteristics of this energy source that apply.
The above-listed characteristics apply to moving water as an energy source. Thus, moving water can be used as an energy source.
The following are the characteristics of moving water as an energy source:
It is a renewable energy source. It is a clean energy source. It is available in many different forms. It is the least expensive energy source to generate.Water is an excellent resource for producing electricity since it is clean, renewable, and is available in many different forms. When water moves, it has the potential to generate energy, which can be harnessed in several ways to produce electricity. As a result, moving water is an excellent source of renewable energy, as it is available in many different forms and can be used in a variety of ways.The above-listed characteristics apply to moving water as an energy source. Thus, moving water can be used as an energy source.
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Problem 1: In Fig. 1, find an expression for the acceleration of
m 1
. The pulleys are massless and frictionless. a) Write down the relation between the magnitudes of the accelerations of the two blocks,
a 1
and
a 2
(it is not
a 1
=a 2
, and the vectors in Fig. 1 are not drawn to scale). An argument that could help is that the total length of the rope stays constant during the motion. b) Write down Newton's second law for each block. Do not miss FIG. 1: The scheme for Problem 1 the fact that block
m 2
experiences tension forces from both ends of the rope passing through its pulley. Using the acceleration constraint from part a), work out the formula for the acceleration
a 1
in terms of
m 1
,m 2
, and
g
. c) What is the value of
a 1
, if
m 1
=3 kg
, and
m 2
=1 kg
? (Answer:
a 1
=1.5 m/s 2
.)
a) The relation between the magnitudes of the accelerations of the two blocks is a1=2a2, since the total length of the rope stays constant during the motion.
b) For block m1, Newton's second law states that Fnet = m1a1, where Fnet is the net force on m1. Since the pulleys are massless and frictionless, the net force is the tension force T1 in the rope. Therefore, T1 = m1a1.
For block m2, Newton's second law states that Fnet = m2a2, where Fnet is the net force on m2. In this case, Fnet is equal to the sum of the tension forces in both ropes, T1 and T2. Therefore, T1 + T2 = m2a2.
Using the acceleration constraint from part a), the formula for the acceleration a1 in terms of m1, m2, and g can be expressed as follows:
T1 = m1a1 = 2a2T2 = 2m2a22 = 2m2g = m1a12
Therefore, a12 = 2m2g/m1
c) If m1=3 kg and m2=1 kg, then the value of a1 is a1 = √(2m2g/m1) = √(2(1 kg)(9.8 m/s2)/(3 kg)) = 1.5 m/s2.
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What type of electromagnetic wave is sent as a signal by a cell phone to the
nearest cell tower?
A. Gamma rays
B. Microwaves
C. X-rays
D Ultraviolet
Answer:B. Microwaves
Explanation:
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Constants Find the equivalent resistance RA of the resistor network. Consider the network of four resistors shown in the diagram, where R1 = 2.00 2, R2 = 5.00 I2, R3 = 1.00 12, and R4 = 7.00 22. The resistors are connected to a constant voltage of magnitude V. (Figure 1) ► View Available Hint(s) R4 = 9.43 2 Submit Previous Answers Figure (< 1 of 2 Correct Part B Two resistors of resistance R5 = 3.00 $2 and R6 = 3.00 22 are added to the network, and an additional resistor of resistance R7 = 3.00 S2 is connected by a switch, as shown in the diagram..(Figure 2) Find the equivalent resistance Rp of the new resistor network when the switch is open. R R2 ► View Available Hint(s) IVO AO O 2 ? Part Find the equivalent resistance Rc of the resistor network described in Part B when the switch is closed. View Available Hint(s) V AC O ? RC =
The resistors are connected to a constant voltage of magnitude V the RA is 2.409Ω. The equivalent resistance RB of the new resistor network when the switch is open RB is 13.5 Ω. The equivalent resistance Rc of the resistor network described in Part B when the switch is closed RC is 8.6 Ω.
A)
The entire resistance of two resistors in parallel is given by means of:
1/RA = 1/(R1+R2) + 1/(R3+R4)
Substituting the expressions we derived above, we get:
1/RA = 1/[2.00Ω + (5.00Ω/12)V] + 1/[1.00Ω + (7.00Ω /22)V]
Solving for RA, we get:
RA = 2.409Ω
B)
Equivalent resistance, RB = (R1 + R6) R2/(R1 + R6 + R2) + R3 + R4 + R5
RB = (2 + 3) x 5/(2 + 3 + 5) + 1 + 7 + 3
RB = 13.5 Ω
C)
Equivalent resistance, RC = (R1 + R6) R2/(R1 + R6 + R2) + R3 + R7 x R4/(R7 + R4) + R5
RC = (2 + 3) x 5/(2 + 3 + 5) + 1 + (3 x 7/(3+7)) + 3
RC = 8.6 Ω
A resistor is an electrical component that restricts the flow of electrical current in a circuit. It is typically made of a material that has a high resistance to the flow of electricity, such as carbon, metal, or ceramics. They can be used to control the amount of current flowing through a circuit, to limit voltage, to adjust the gain of an amplifier, or to provide a load in a circuit. They are also used in electronic filters, timing circuits, and signal processing applications.
Resistors come in a variety of shapes and sizes, including through-hole, surface mount, and wirewound resistors. They are often color-coded to indicate their resistance value and tolerance, and their wattage rating determines the amount of power they can safely handle without overheating.
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imagine that the blue light and orange light from the source were blocked. what color would how be present in the spectrum of light observed
Everything but blue & orange would now be present in the spectrum of light observed.
Spectrum refers to a range of different wavelengths of electromagnetic radiation. Electromagnetic radiation is a form of energy that travels through space and includes different types such as radio waves, microwaves, infrared radiation, visible light, ultraviolet radiation, X-rays, and gamma rays. Each type of electromagnetic radiation has a different wavelength and frequency, and together they make up the electromagnetic spectrum.
The concept of spectrum is used in a variety of fields, including physics, astronomy, and telecommunications. The spectrum of electromagnetic radiation is essential for many technologies, such as radios and televisions, cell phones, and medical imaging devices, as they all rely on the transmission and reception of specific wavelengths of electromagnetic radiation.
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Complete Question: -
Imagine that the blue light and orange light from the source were blocked. What color(s) would now be present in the spectrum of light observed?
Pete needs to be at work for 9.00am. He leaves his house at 7.30am and drives to the gym which is 12.5 miles away. Pete spends 45 minutes in the gym then drives the reaming 9 miles to work.
To determine the time Pete arrives at work, we can start by calculating the total time he spends on his commute and gym routine:
What time will Pete get to work?Time spent driving to the gym = 12.5 miles ÷ average speed
We don't know Pete's average speed, so we cannot calculate this.
Time spent in the gym = 45 minutes
Time spent driving from the gym to work = 9 miles ÷ average speed
Again, we don't know Pete's average speed, so we cannot calculate this.
Total time spent on commute and gym routine = time spent driving to gym + time spent in gym + time spent driving from gym to work
= Unknown + 45 minutes + Unknown
Next, we can convert the total time to hours and minutes:
Total time = (Unknown + 45 minutes + Unknown) ÷ 60
= (Unknown + Unknown) ÷ 60 + 45/60
= (2Unknown) ÷ 60 + 0.75
= (Unknown) ÷ 30 + 0.75
We know that Pete needs to arrive at work by 9.00am, so we can set up an equation:
Arrival time = 7.30am + Total time
9.00am = 7.30am + (Unknown/30) + 0.75
Solving for Unknown:
1.5 hours = Unknown/30
Unknown = 45 minutes
Therefore, Pete will arrive at work at 8.15am.
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what determines the size of a launch window? answer specifically and detail.
Explanation:
The size of a launch window is determined by a variety of factors, including the position of the launch site, the desired orbit, the position of the destination, and the characteristics of the spacecraft being launched.
One of the most important factors is the position of the launch site relative to the desired orbit. The launch site must be positioned in such a way that the rocket can achieve the required velocity and trajectory to reach the desired orbit. The angle and speed at which the rocket is launched are also crucial, as they affect the amount of fuel required and the trajectory of the rocket.
The position of the destination is another factor that affects the size of the launch window. For example, if the spacecraft is bound for a planet that is moving in its orbit, the launch window must be adjusted to account for the changing position of the planet.
In addition, the characteristics of the spacecraft being launched, such as its size, weight, and propulsion system, can also affect the size of the launch window. A larger spacecraft may require more fuel and a longer burn time, which may limit the available launch window.
Overall, the size of a launch window is determined by a complex set of factors, including the position of the launch site, the desired orbit, the position of the destination, and the characteristics of the spacecraft being launched. Launch planners use sophisticated computer models and simulations to calculate the optimal launch window based on these factors.
I need some help with this question
The speed of the ball when it leaves the gun is approximately 17.66 m/s.
Steps
To determine the speed of the ball when it leaves the gun, we can use the principle of conservation of energy. At the moment when the trigger is pulled, the spring has a potential energy equal to:
U = (1/2) k x²
where k is the spring constant and x is the amount by which the spring is compressed from its unstretched length. Using the given values, we have:
U = (1/2) (20 N/m) (0.0125 m)² = 1.5625 mJ
When the spring is released, this potential energy is converted into kinetic energy of the ball, as well as work done against friction. The work done against friction is equal to:
W = f_friction x
where f_friction is the frictional force between the ball and the barrel, and x is the distance that the ball moves along the barrel. Using the given values, we have:
W = (0.02 kg) (9.81 m/s²) (0.20) (0.05 m) = 0.01962 J
The kinetic energy of the ball is equal to the difference between the potential energy of the spring and the work done against friction:
K = U - W = 1.5625 mJ - 0.01962 J = 1.5429 J
The speed of the ball when it leaves the gun is equal to the:
v = sqrt(2K/m)
where m is the mass of the ball. Using the given value of 20 g, we have:
m = 0.02 kg
Substituting the values and evaluating the expression, we get:
v = sqrt(2(1.5429 J)/(0.02 kg)) = 17.66 m/s
Therefore, the speed of the ball when it leaves the gun is approximately 17.66 m/s.
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Two blocks of unequal mass are tied together with a massless string that does not stretch and connected via a frictionless and massless pulley. Mass one, M1, rests on a frictionless table top. Mass two, M2, is released and both blocks begin to move....
The blocks accelerate at the same rate since they are connected. What is the acceleration?
The blocks accelerate at the same charge for the reason that they're linked. The acceleration is a value between zero and g.
Acceleration is a physical concept that refers to the rate of change of an object's velocity with respect to time. When an object's velocity changes, either by speeding up or slowing down, it is said to be accelerating.
Acceleration plays an important role in many aspects of physics, from the motion of celestial bodies to the behavior of particles in a particle accelerator. The magnitude of acceleration is the rate at which an object's velocity changes, and it is measured in units of meters per second squared (m/s^2) in the International System of Units (SI). There are several factors that can cause an object to accelerate, such as a force acting on it, a change in its direction of motion, or a combination of both.
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I’m so stuck I’ve attempted these questions so many times I really don’t know
Answer:
1st one 3N to the left to achieve equilibrium
2nd one 5N to the left to achieve equilibrium
3rd one 2N to the top to achieve equilibrium
4th one 8N to the right to achieve equilibrium
Explanation:
A 68 kg
man's arm, including the hand, can be modeled as a 79-cm
-long uniform cylinder with a mass of 3.3 kg. In raising both his arms, from hanging down to straight up, by how much does he raise his center of gravity?
Answer:
Explanation:
We can calculate the change in the man's center of gravity by considering the initial and final positions of the center of gravity of his arms.
Assuming the man's arms are initially hanging down by his sides, the center of gravity of his arms is located at the midpoint of the cylinder, which is at a distance of L/2 = 79/2 = 39.5 cm from the shoulder joint.
When the man raises his arms straight up, the center of gravity of his arms is located at the top of the cylinder, which is at a distance of L = 79 cm from the shoulder joint.
The change in the man's center of gravity is therefore:
Δh = h_final - h_initial
= L - L/2
= 79 cm - 39.5 cm
= 39.5 cm
Therefore, the man raises his center of gravity by 39.5 cm when he raises both his arms from hanging down to straight up.
Determine the linear velocity of blood in the aorta with a radis of 1.5 cm, if the duration of systole is 0.25 s, the stroke volume is 60 ml.
Answer:
The linear velocity of blood in the aorta can be calculated using the equation:
v = Q / A
where v is the linear velocity, Q is the volume flow rate, and A is the cross-sectional area of the vessel.
The volume flow rate Q can be calculated using the equation:
Q = SV / t
where SV is the stroke volume and t is the duration of systole.
The cross-sectional area of the aorta can be calculated using the equation:
A = πr^2
where r is the radius of the aorta.
Given that the radius of the aorta is 1.5 cm, the stroke volume is 60 ml, and the duration of systole is 0.25 s, we can calculate the volume flow rate Q:
Q = SV / t = 60 ml / 0.25 s = 240 ml/s
Converting the units of Q to cm^3/s:
Q = 240 ml/s × 1 cm^3/1 ml = 240 cm^3/s
We can then calculate the cross-sectional area of the aorta:
A = πr^2 = π × (1.5 cm)^2 = 7.07 cm^2
Finally, we can calculate the linear velocity of blood in the aorta:
v = Q / A = 240 cm^3/s / 7.07 cm^2 = 33.9 cm/s
Therefore, the linear velocity of blood in the aorta is 33.9 cm/s.
The energy of a photon is inversely proportional to its wavelength. True or Flase
False. E=hf, where h is Planck's constant, c is the speed of light, f is the frequency, and is the wavelength; and E=hc/, where E is directly proportional to frequency and inversely proportional to wavelength.
The inverse relationship between a photon's energy and what?With respect to the wavelength of the radiation, photon energy is inversely proportional.
What is a photon's wavelength-related energy?Two formulas can be used to determine a photon's energy: E = h f is a formula that can be used if the photon's frequency is known. This equation, sometimes known as Planck's equation, was created by Max Planck.
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Constants I Periodic Table Suppose two parallel-plate capacitors have the same charge Q, but the area of capacitor 1 is A and the area of capacitor 2 is 2A
Two parallel-plate capacitors with the same charge Q but different areas (A and 2A) can be compared by looking at the capacitance. The capacitance of the second capacitor is double that of the first due to the increase in area.
Two parallel-plate capacitors with the same charge Q but different areas (A and 2A) can be compared by looking at the capacitance, which is defined as the ratio of the charge stored on the capacitor to the voltage applied across the plates. The capacitance C of a capacitor is given by the equation C=Q/V. Therefore, the capacitance of the first capacitor, C1, is C1=Q/V, and the capacitance of the second capacitor, C2, is C2=(2Q)/V. It is seen that the capacitance of the second capacitor is double that of the first. This is because the area of the second capacitor is double that of the first. Therefore, the same charge Q stored on the first capacitor is distributed over twice the area in the second capacitor, resulting in the capacitance being double. This can be mathematically expressed as C2 = 2C1. Thus, two parallel-plate capacitors with the same charge Q but different areas (A and 2A) can be compared by looking at the capacitance. The capacitance of the second capacitor is double that of the first due to the increase in area.
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P1. A -15 nC point charge is placed on the x- y plane at the point (8, 16) m and receives a force of
(21 +4j) N.
Calculate the electric field vector at the point (8,16) m.
b. Determine the magnitude and the sign of the point charge that is placed at the origin and
that produces the electric field that you calculated in a.
a) We can use Coulomb's law to calculate the electric field vector at the point (8,16) m due to the point charge placed on the x-y plane.
The electric field vector is given by E = F/q, where F is the force exerted on the point charge and q is the magnitude of the charge. The force exerted on the charge is (21 + 4j) N. The magnitude of the charge is given by q = F/E, where E is the electric field at the point (8,16) m. Therefore, we have:
E = F/q = (21 + 4j) N / (-15 nC) = (-1.4 - 0.267j) x 10⁶ N/C
So, the electric field vector at the point (8,16) m is (-1.4 - 0.267j) x 10⁶N/C.
b) To determine the magnitude and sign of the point charge that produces the electric field calculated in part (a), we can use the formula for the electric field of a point charge. The electric field at a point P due to a point charge q located at the origin is given by:
E = kq/r²
where k is the Coulomb constantq is the charge of the point charge, and r is the distance between the point charge and point P. We can rearrange this equation to solve for q:
q = Er²/k
Substituting the valuesfor E and r (r = sqrt(8² + 16²) = 17.89 m) we get:
q = (-1.4 - 0.267j) x 10^6 N/C x (17.89 m)² / (8.99 x 10⁹ N m²/C²) = -5.37 nC
So, the magnitude of the point charge is 5.37 nC and its sign is negative, indicating that it is an additional negative charge placed at the origin that produces the electric field calculated in part (a).
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The electric field vector at the point (8, 16) m is (-5.53i - 11.07j) N/C. and
the magnitude of the point charge is 2.11 nC and the sign is negative, indicating that it is the same as the original point charge placed on the x-y plane.
The steps are as following to calculate the given question :-
a. To calculate the electric field vector at the point (8, 16) m due to the -15 nC point charge, we can use Coulomb's law:
The distance between the two points is given by:
r = sqrt[(8-0)^2 + (16-0)^2] = 17.8885 m
The electric field vector is given by:
E = k*q/r^2 * r_hat
where k is the Coulomb constant (k = 9x10^9 N*m^2/C^2), q is the charge of the point charge, r_hat is the unit vector pointing from the point charge to the point of interest.
Since the point charge is negative, the electric field vector points towards the point charge. Therefore, r_hat = -icosθ - jsinθ, where θ is the angle between the vector pointing from the point charge to the point of interest and the x-axis.
θ = atan2(16, 8) = 63.43 degrees
So, r_hat = -0.4472i - 0.8944j
Plugging in the values, we get:
E = (9x10^9 Nm^2/C^2)(-15x10^-9 C)/(17.8885m)^2 * (-0.4472i - 0.8944j)
E = -5.53i - 11.07j N/C
Therefore, the electric field vector at the point (8, 16) m is (-5.53i - 11.07j) N/C.
b. To find the magnitude and sign of the point charge that produces this electric field, we can use the formula:
E = k*q/r^2
where E is the magnitude of the electric field, k is the Coulomb constant, q is the charge of the point charge, and r is the distance between the point charge and the point of interest.
Plugging in the values, we get:
E = (9x10^9 N*m^2/C^2)*q/(17.8885m)^2
-11.07 N/C = (9x10^9 N*m^2/C^2)*q/(17.8885m)^2
Solving for q, we get:
q = -2.11x10^-9 C
Therefore, the magnitude of the point charge is 2.11 nC and the sign is negative, indicating that it is the same as the original point charge placed on the x-y plane.
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Review Constants Spheres A (mass 0.020 kg), B (mass 0.030 kg), and C (mass 0.050 kg), are each approaching the origin as they slide on a frictionless air table. The initial velocities of A and B are given in (Figure 1). All three spheres arrive at the origin at the same time and stick together. Part A What must the x-component of the initial velocity of C be if all three objects are to end up moving at 0.50 m/s in the +x-direction after the collision? Express your answer with the appropriate units. IT μΑ ? m VCE = 0.26 Figure 1 of 1 S y B Submit Previous Answers Request Answer UB = 0.50 m/s X Incorrect; Try Again; 4 attempts remaining Part B 60° VA = 1.50 m/s 0 X UC A What must the y-component of the initial velocity of C be if all three objects are to end up moving at 0.50 m/s in the to-direction after the collision? Express your answer with the appropriate units.
The y-component of the initial velocity of C be if all three objects are to end up moving at 0.50 m/s in the y-direction after the collision with the velocity -0.44 m/s.
Part A,
the x-component of the initial velocity of C must be 0.26 m/s. To answer Part B, the y-component of the initial velocity of C must be -0.44 m/s.
To solve this problem, we can use the law of conservation of momentum. This states that the total momentum before the collision is equal to the total momentum after the collision.
We can use this to calculate the velocity of C in each direction.
We know that A and B have an initial velocity in the x-direction of 0.50 m/s and 1.50 m/s respectively, and the velocity in the y-direction is 0 m/s for both. We also know that the total mass is 0.100 kg. So the total initial momentum in the x-direction is:
[tex]Momentum_x = (mass_A x velocity_A_x) + (mass_B x velocity_B_x)[/tex]
= (0.020 kg x 0.50 m/s) + (0.030 kg x 1.50 m/s) = 0.080 kg m/s
We also know that the final velocity of the three objects is 0.50 m/s in the x-direction and the total mass is 0.100 kg. So the total final momentum in the x-direction is:
[tex]Momentum_x = (mass_total x velocity_final_x)[/tex] = (0.100 kg x 0.50 m/s) = 0.050 kg m/s
Using the law of conservation of momentum, we can solve for the velocity of C in the x-direction:
0.080 kg m/s = [tex](mass_C x velocity_C_x) + 0.050 kg m/s velocity_C_x[/tex] = (0.080 kg m/s - 0.050 kg m/s) / 0.050 kg = 0.26 m/s
Part B,
we can do the same process in the y-direction. We know that the initial velocities of A and B are 0 m/s in the y-direction, and the total mass is 0.100 kg.
So the total initial momentum in the y-direction is:
[tex]Momentum_y = (mass_A x velocity_A_y) + (mass_B x velocity_B_y)[/tex]
= (0.020 kg x 0 m/s) + (0.030 kg x 0 m/s) = 0 kg m/s
We also know that the final velocity of the three objects is 0.50 m/s in the y-direction and the total mass is 0.100 kg.
So the total final momentum in the y-direction is:
[tex]Momentum_y = (mass_total x velocity_final_y)[/tex] = (0.100 kg x 0.50 m/s) = -0.050 kg m/s
Using the law of conservation of momentum, we can solve for the velocity of C in the y-direction:
0 kg m/s =[tex](mass_C x velocity_C_y)[/tex] + (-0.050 kg m/s)
[tex]velocity_C_y[/tex] = (-0.050 kg m/s) / 0.050 kg = -0.44 m/s
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diagram below shows some of the forces acting on a car of mass 800 kg.
a. State the size of the total drag force when the car is travelling at constant speed.
b. The driving force is increased to 3200 N.
i. Find the resultant force on the car at this instant.
ii. Write down, in words, the equation connecting mass, force and acceleration.
iii. Calculate the initial acceleration of the car.
c. Explain why the car will eventually reach a new higher constant speed.
Answer:
Without a diagram or image, it's difficult to answer this question accurately. However, I can provide a general answer based on the information given.
a. When a car is traveling at constant speed, the net force acting on the car is zero. Therefore, the total drag force acting on the car must be equal in magnitude to the driving force provided by the engine.
b. i. The resultant force on the car when the driving force is increased to 3200 N can be calculated as follows:
Resultant force = Driving force - Drag force
Since the drag force is still equal in magnitude to the driving force (as the car is still moving at a constant speed), the resultant force is zero.
Resultant force = 3200 N - 3200 N = 0 N
ii. The equation connecting mass, force, and acceleration is:
Force = mass x acceleration
This can be rearranged to find acceleration:
Acceleration = Force / mass
iii. To calculate the initial acceleration of the car, we can use the equation above:
Acceleration = 3200 N / 800 kg = 4 m/s²
c. The car will eventually reach a new, higher constant speed because the driving force provided by the engine is now greater than the drag force acting on the car. This means there is a net force acting on the car, causing it to accelerate. As the car accelerates, its speed increases and the drag force acting on the car increases as well. Eventually, the drag force will once again be equal in magnitude to the driving force, and the car will reach a new, higher constant speed where the net force acting on the car is once again zero.
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A compact car can climb a hill in 10 s. The top of the hill is 30 m higher than the bottom, and the car’s mass is 1,000 kg What is the power output of the car?
Answer:
the power output of the car is 29.43 kW (rounded to two decimal places).
Explanation:
To find the power output of the car, we need to use the formula:
power = work / time
where work is the change in potential energy of the car as it climbs the hill, which can be calculated using the formula:
work = force x distance
where force is the force required to lift the car against gravity, which is given by:
force = mass x gravity
where mass is the mass of the car, and gravity is the acceleration due to gravity (9.81 m/s^2).
So, the force required to lift the car against gravity is:
force = 1000 kg x 9.81 m/s^2 = 9810 N
The distance the car travels up the hill is 30 m.
Therefore, the work done by the car is:
work = force x distance = 9810 N x 30 m = 294300 J
The time taken by the car to climb the hill is 10 s.
Therefore, the power output of the car is:
power = work / time = 294300 J / 10 s = 29430 W
For which of the following types of electromagnetic radiation will diffraction most likely occur as the wave passes through a classroom doorway? A) X-rays, because of their high energy. B) Visible light, because that type of electromagnetic radiation is most abundant. C) Radio waves, because of their wavelength. D) Diffraction will occur equally for all electromagnetic waves.
Option C, Because of the wavelength of radio waves and other forms of electromagnetic radiation, diffraction is most likely to occur as the wave travels through a classroom doorway.
Diffraction is the bending of waves around barriers or through apertures that are equivalent to or smaller than the wavelength of the wave.
Because radio waves have longer wavelengths than visible light and X-rays, they are more likely to diffract while passing through a similar-sized aperture, such as a classroom doorway.
Because X-rays have considerably shorter wavelengths and visible light has wavelengths in between, diffraction is less likely to occur in this scenario for these forms of electromagnetic energy. As a result, option C is the right answer.
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TRUE/FALSE.The mass of the Sun compared to the mass of all the planets combined is like the mass of an elephant compared to the mass of a cat.
Please do help me. Nonsense answers will be reported.
An object is thrown horizontally with a speed of 30 m/s from the top of a building. Complete the table below for the indicated time interval. Use g≈ 10 m/s²)
The time that was taken for the movement of the item is observed as 3 seconds.
How do you use the equations of motion?The equations of motion describe the motion of objects in terms of their position, velocity, acceleration, and time.
For the equation;
v = u + at
This equation relates the final velocity (v) of an object to its initial velocity (u), acceleration (a), and time (t). If three of these variables are known, the equation can be rearranged to solve for the unknown variable.
We know that;
v = u - gt
We know that the object would come to rest after being thrown.
0 = 30 - 10t
-30 = - 10t
t = 3 seconds
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you have a cubical box (sides all of length a) made of six metal plates which are insulated from each other. the left wall is located at x
The potential V(x, y, z) everywhere inside the box. Formulas give V=0 at the center of this cube. Is E=0 there[tex](A_{n,m}e^{a/2\sqrt{(n^{2}+m^{2})\pi^{2}/a^{2}}}+B_{n,m}e^{-a/2\sqrt{(n^{2}+m^{2})\pi^{2}/a^{2}}})=\frac{16V_{0}}{nm\pi^{2}}\: \: \: n,m =odd[/tex]
Laplace equation in cartesian co-ordinates is
[tex]\frac{\partial^2 V}{\partial x^2}+\frac{\partial^2 V}{\partial y^2}+\frac{\partial^2 V}{\partial z^2}=0[/tex]
Multiply both side by [tex]sin\left ( \frac{n'\pi x}{a} \right )sin\left ( \frac{m'\pi z}{a} \right )[/tex] and integrate over x and z from 0 to a
[tex]\int_{0}^{a}\int_{0}^{a}V_{0}sin\left ( \frac{n\pi x}{a} \right )sin\left ( \frac{m\pi z}{a} \right )dxdz=\frac{a^{2}}{4}(A_{n,m}e^{-a/2\sqrt{(n^{2}+m^{2})\pi^{2}/a^{2}}}+B_{n,m}e^{a/2\sqrt{(n^{2}+m^{2})\pi^{2}/a^{2}}})[/tex]
[tex](A_{n,m}e^{-a/2\sqrt{(n^{2}+m^{2})\pi^{2}/a^{2}}}+B_{n,m}e^{a/2\sqrt{(n^{2}+m^{2})\pi^{2}/a^{2}}})=\frac{4V_{0}}{a^{2}}\int_{0}^{a}sin\left ( \frac{n\pi x}{a} \right )dx \int_{0}^{a}sin\left ( \frac{m\pi z}{a} \right )dz[/tex]
[tex](A_{n,m}e^{-a/2\sqrt{(n^{2}+m^{2})\pi^{2}/a^{2}}}+B_{n,m}e^{a/2\sqrt{(n^{2}+m^{2})\pi^{2}/a^{2}}})=\frac{16V_{0}}{nm\pi^{2}}\: \: \: n,m =odd[/tex]
Now apply the final boundary condition V(x, y=a/2, z) = V0
Solving we get
[tex](A_{n,m}e^{a/2\sqrt{(n^{2}+m^{2})\pi^{2}/a^{2}}}+B_{n,m}e^{-a/2\sqrt{(n^{2}+m^{2})\pi^{2}/a^{2}}})=\frac{16V_{0}}{nm\pi^{2}}\: \: \: n,m =odd[/tex]
The Laplace equation is a partial differential equation that describes the behavior of a scalar field in space. In its simplest form, it states that the sum of the second partial derivatives of the scalar field with respect to each of the spatial dimensions is equal to zero. This means that the scalar field has no sources or sinks, and its value is determined only by the boundary conditions.
The Laplace equation has many applications in physics, engineering, and mathematics. For example, it can be used to model the behavior of electric and gravitational fields, fluid flow, and heat transfer. It is also used in solving problems involving potential functions, which arise in many areas of physics and engineering.
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Complete Question: -
You have a cubical box (sides all of length a) made of 6 metal plates which are insulated from each other. The left wall is located at y=-a/2, the right wall is at y=+a/2. Both left and right walls are held at constant potential V=V0. All four other walls are grounded. Find the potential V(x, y, z) everywhere inside the box. Do your formulas give V=0 at the center of this cube? Is E=0 there? (Should they be??)
can you please help me ASAP
Answers :-
Atoms contain equal number of protons and electrons so they are neutral.An atoms loses or gains electron to form a species called ions .Cations have positive charge ions , which are formed by loss of electrons . For example Na loses one electron to become Na+ . On the anions are negatively charged species formed by gain of electrons . For example, Cl gains one electron to become Cl- .Ions are formed by loss or gain of electrons. Loss of electrons leads to the formation of cation, whereas gain of electrons leads to the formation of anion .Ions are charged species. They form ionic compounds which have high melting point , also they are insulators .A) Lithium has 1 electron in outer shell so it is relatively easier for lithium to lose one electron rather than gaining 7 electron to complete octet so Lithium forms a cation by losing one electron from its valence shell . B) The charge on its ion will be plus one .C) The ion will be named lithium ion .D) It is represented by symbol [tex]Li^+[/tex]The blanks for question 7 is as follows:-
1st row : Charge of the ion = +3
2nd row : Chemical symbol = I-
3rd row : Name of ion = Magnesium ion and type of ion = cation .
4th row : Chemical symbol = K+ , charge of the ion = +1 and type of ion = cation .
5th row : Name of ion = Nitride ion , charge of the ion = -3 , type of ion = anion .
and we are done!
calculate the power rating of an immersion heater used for 10 minutes to increase the temperature of 10kg of water by 15k (specific heat capacity of water equal4200j/kg/k)
Answer: 1,050W is the power rating of immersion heater
what is the distance between two vehicles of mass 5 metric tons if the gravitational force between this 1.6*10^-5N? (G=6.7*10^-11N m^2kg^-2)
Answer:
10m
Explanation:
r=√Gm1m2Fg
r=√[(6.7×10−11 N m2 kg−2)(5000 kg)(5000 kg) / 1.6×10−5 N}
a. what are the physical processes by which atoms rearrange during phase transformations in the solid state (how do atoms rearrange in the solid state)?
The physical processes by which atoms rearrange during phase transformations in the solid state involve changes in the arrangement of the atoms in the lattice, which can be caused by changes in temperature, pressure, or both.
The physical processes by which atoms rearrange during phase transformations in the solid state involve changes in the arrangement of the atoms in the lattice.
This is typically done by changing the number of nearest neighbours of each atom or by introducing new lattice points in the solid structure. In some cases, atoms may even have to move from one position to another.
Common examples of phase transformations in the solid state include melting, recrystallization, and solidification.
Melting occurs when the thermal energy of the solid is increased and the atoms become mobile enough to break the bonds between them. This causes the solid to transition into a liquid phase.
Recrystallization occurs when the thermal energy of the solid is decreased, causing the atoms to return to their original positions and form a new, more ordered lattice.
Lastly, solidification is the reverse process of melting, where thermal energy is removed and the atoms return to their original positions in the lattice.
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