Determine the direction of the magnetic force in the following situations: (a) A negatively charged particle is moving north in a magnetic field which points up. (b) A positively charged particle is moving in the +x direction in a magnetic field that points in the −y direction. (c) A positively charged particle is stationary in a magnetic field that points in the +z direction. (d) A negatively charged particle is moving west in a magnetic field that points east. (e) A negatively charged particle is moving in the −z direction in a magnetic field that points in the −x direction. (f) A negatively charged particle is moving up in a magnetic field that points south.

Answers

Answer 1

The direction of the magnetic force can be determined using the right-hand rule for magnetic force.

According to this rule, if the thumb of the right hand points in the direction of the velocity of the charged particle, and the fingers point in the direction of the magnetic field, then the palm of the hand will indicate the direction of the magnetic force on the particle.

(a) For a negatively charged particle moving north in a magnetic field pointing up, the force would act to the west.(b) For a positively charged particle moving in the +x direction in a magnetic field pointing in the −y direction, the force would act in the +z direction.

(c) For a positively charged particle that is stationary in a magnetic field pointing in the +z direction, there would be no magnetic force since the particle is not in motion.(d) For a negatively charged particle moving west in a magnetic field pointing east, the force would act in the south direction.

(e) For a negatively charged particle moving in the −z direction in a magnetic field pointing in the −x direction, the force would act in the +y direction.(f) For a negatively charged particle moving up in a magnetic field pointing south, the force would act in the west direction.

Learn more about magnetic force here:

https://brainly.com/question/30532541

#SPJ11


Related Questions

A concept sports car can go from rest to 40.0 m/s in 2.88 s. The same car can come to a complete stop from 40.0 m/s in 3.14 s. The magnitude of the starting acceleration to the stopping acceleration of the car is closest to:
1.09,0.937,0.878,1.15
Amy is trying to throw a ball over a fence. She throws the ball at an initial speed of 8.0 m/s at an angle of 40° above the horizontal. The ball leaves her hand 1.0 m above the ground and the fence is 2.0 m high. The ball just clears the fence while still traveling upwards and experiences no significant air resistance. How far is Amy from the fence?
0.73m,2.7m,7.5m,1.6m,3.8m

Answers

The magnitude of the starting acceleration to the stopping acceleration of the sports car is closest to 0.937. Amy is approximately 2.7 meters away from the fence.

To find the magnitude of the starting acceleration to the stopping acceleration of the sports car, we can use the equations of motion. The initial velocity (u) is 0 m/s, the final velocity (v) is 40.0 m/s, and the time taken (t) is 2.88 s. Using the equation v = u + at, we can rearrange it to solve for acceleration (a). Substituting the given values, we find that the starting acceleration is approximately 13.89 m/s^2. Similarly, for the stopping acceleration, we use the same equation with v = 0 m/s and t = 3.14 s, finding that the stopping acceleration is approximately -12.74 m/s^2. Taking the ratio of the magnitudes of these accelerations, we get 0.937.

For Amy throwing the ball over the fence, we can analyze the projectile motion. The vertical component of the initial velocity (v_y) is 8.0 m/s * sin(40°), and the time it takes for the ball to reach its maximum height can be calculated using the equation v_y = u_y + gt, where g is the acceleration due to gravity. Solving for t, we find it to be approximately 0.511 s. During this time, the ball reaches its maximum height, which is 1.0 m above the ground. Since the fence is 2.0 m high, the total height the ball reaches is 3.0 m. Using the equation for vertical displacement, h = u_yt + (1/2)gt^2, we can solve for the horizontal displacement (x) using the equation x = u_xt, where u_x is the horizontal component of the initial velocity. Substituting the given values, we find that Amy is approximately 2.7 meters away from the fence.

Learn more about acceleration here:

https://brainly.com/question/12550364

#SPJ11

1 point What is the angle of the 2nd order dark fringe created when a light with a wavelength of 4.62x107m is sent through a set of slits that are 8.91x10 m apart? 0,0130° 0.0104⁰ 0.745° 0.594⁰ Sub 0000

Answers

The angle of the 2nd order dark fringe is approximately 0.014°. To find the angle of the 2nd order dark fringe, we can use the formula, where θ is the angle, m is the order of the fringe, λ is the wavelength of light, and d is the distance between the slits.

sin(θ) = m * λ / d

In this case, we have m = 2, λ = 4.62x[tex]10^(-7)[/tex]m, and d = 8.91x10^(-6)[tex]10^(-6)[/tex] m.

Substituting these values into the formula, we get:

sin(θ) = 2 * (4.62x1[tex]0^(-7)[/tex]m) / (8.91x[tex]10^(-6[/tex]) m)

Calculating this expression, we find:

sin(θ) ≈ 0.0245

To find the angle θ, we can take the inverse sine (arcsin) of this value:

θ ≈ arcsin(0.0245)

Using a calculator, we find:

θ ≈ 0.014°

Therefore, the angle of the 2nd order dark fringe is approximately 0.014°.

Learn more about fringes here:

https://brainly.com/question/31576174

#SPJ11

Consider the crcuit shown in the diagram below. The potentiai difference across the points a and D is aV=120.0 V and the capacitors have the folowing values: C 1

=13.0 jif C 2

=2.00μ 2
C 3

=4.00HF, and C 4

=17.0μF, tnitially the cagacitors are all uncharged. mic (b) Wnat is the charge on each fully charged capacier? Q 1

=
Q 2

=
Q 3

=
Q 4

=

mc
mc
mc
mC

Answers

a) The capacitance between B and C is given by the formula,CBC = 1.5625 μF.b)The charges on each capacitor isQ1 = 1560 μC,Q2 = 0.24 μC,Q3 = 0.48 μC,Q4 = 2.04 μC.

(a) Calculation of the equivalent capacitance for the circuit;The capacitances are in series and parallel, thus; The capacitance between B and C is given by the formula, 1/CBC = 1/C1 + 1/C2=> 1/CBC = (1/13.0 + 1/2.00) => CBC = 1.5625 μF.

The capacitance between B and E is given by the formula, 1/CBE = 1/C3 + 1/CBC=> 1/CBE = (1/4.00 + 1/1.5625) => CBE = 1.1777 μFThe total capacitance, CT, is given by the formula, CT = CBE + C4=> CT = 1.1777 + 17.0 => CT = 18.1777 μF

(b) Calculation of the charges on each capacitor:The total charge, Q, flowing through the circuit is given by the formula,Q = CVQ = CT × aVQ = 18.1777 × 120.0Q = 2181.33 μC.

The charges on each capacitor is then;Q1 = C1 × aVQ1 = 13.0 × 120.0Q1 = 1560 μCQ2 = C2 × aVQ2 = 2.00 × 10-6 × 120.0Q2 = 0.24 μCQ3 = C3 × aVQ3 = 4.00 × 10-6 × 120.0Q3 = 0.48 μCQ4 = C4 × aVQ4 = 17.0 × 10-6 × 120.0Q4 = 2.04 μCTherefore; Q1 = 1560 μC, Q2 = 0.24 μC, Q3 = 0.48 μC, and Q4 = 2.04 μC.

Learn more about circuit here,

https://brainly.com/question/2969220

#SPJ11

ASAP please
For the turbulent flow in smooth circular tubes the curve-fit function = (1-²) ¹/n V₂ R 2,max is sometime useful: near Re-4x10³, n=6; near Re-1.1x105, n=7; and near 3.2x10%, n=10. Show that the r

Answers

The curve-fit function (1-²) ¹/n V₂ R 2, max is commonly used to approximate the behavior of turbulent flow in smooth circular tubes. The values of n vary depending on the Reynolds number (Re) of the flow. Near Re-4x10³, n is approximately 6; near Re-1.1x105, n is around 7; and near 3.2x10^6, n is approximately 10. This function helps to describe the relationship between velocity (V), radius (R), and the maximum radius (R 2, max) in turbulent flow conditions.

The given curve-fit function (1-²) ¹/n V₂ R 2, max represents a relationship observed in turbulent flow within smooth circular tubes. The function involves three variables: velocity (V), radius (R), and the maximum radius (R 2, max).

The term (1-²) ¹/n represents the ratio of the difference between the maximum radius (R 2, max) and the radius (R) to the maximum radius raised to the power of 1/n. This term accounts for the influence of the radius on the behavior of the turbulent flow.

The values of n vary depending on the Reynolds number (Re) of the flow. Near Re-4x10³, the value of n is approximately 6, indicating a certain relationship between the variables in this range. Near Re-1.1x105, the value of n is approximately 7, and near 3.2x10^6, the value of n is approximately 10. These different values of n reflect the changing behavior of turbulent flow at different Reynolds numbers.

Overall, the given curve-fit function helps approximate the relationship between velocity, radius, and the maximum radius in turbulent flow conditions, with different values of n accounting for the varying behavior at different Reynolds numbers.

To know more about turbulent flow click here:

https://brainly.com/question/28102157

#SPJ11

A tow truck rope will break if the tension in it exceeds 2300 N. It is used to tow a 400 kg car along a level road. The coefficient of friction is 0.30. With what maximum acceleration can a car be towed by the truck?
Two objects are hung from strings. The top object m1 has a mass of 10 kg and the bottom object m2 has a mass of 20 kg. Calculate the tension in each string if you pull down on m2 with a force of 30 N.
A 200-gram hockey puck slows down at a rate of 1 m 2 as it slides across the ice. Determine the frictional force acting on the puck.

Answers

The maximum acceleration determined by considering the tension in the tow truck rope and frictional force between the car and the road. The tension in the rope must not exceed 2300 N. The mass of the car is 400 kg, and the coefficient of friction is 0.30.

To determine the maximum acceleration at which the car can be towed, we need to consider the forces acting on the car. The two main forces involved are the tension in the tow truck rope and the frictional force between the car and the road.

First, let's calculate the maximum frictional force. The frictional force can be found by multiplying the coefficient of friction (μ) by the normal force (N), which is the force exerted by the car's weight on the road surface.

The normal force is equal to the car's weight, which is the product of its mass (m) and the acceleration due to gravity (g ≈ 9.8 m/s²).The normal force (N) = m * g= 400 kg * 9.8 m/s²= 3920 N.The maximum frictional force (F_friction) = μ * N= 0.30 * 3920 N= 1176 N

Now, we need to find the maximum acceleration (a) at which the tension in the rope will not exceed 2300 N. The tension in the rope is equal to the force required to accelerate the car. The tension in the rope (T) =m*a

To find the maximum acceleration, we can rearrange the equation as follows: a = T / m. Since T should not exceed 2300 N, we can substitute the values and solve for a: a = 2300 N / 400 kg≈ 5.75 m/s²

Therefore, the maximum acceleration at which the car can be towed by the truck is approximately 5.75 m/s².

To learn more about acceleration, Click here: brainly.com/question/2303856

#SPJ11

In one potion of a synchectron undulator, electroris traveing at 2.96×10 4
m/s enter a region of uniaria magnetc fiest with a strengit of o. 844 T Part A What id the acceleration of an electron in this region? Exprese your answer to three significant figures and include appropriate unite. Part B Expeess your anmwer to three signifieant figures and inelude tppeppriate units.

Answers

In a region of uniform magnetic field with a strength of 0.844 T, electrons traveling at a speed of 2.96×10^4 m/s experience an acceleration.

Part A: The acceleration of an electron in a uniform magnetic field can be determined using the formula a = (q * v * B) / m, where q is the charge of the electron, v is its velocity, B is the magnetic field strength, and m is the mass of the electron. Plugging in the given values, we can calculate the acceleration of the electron in the given magnetic field.

Part B: The acceleration of the electron, calculated in Part A, will be expressed in appropriate units. The unit for acceleration is meters per second squared (m/s²), which represents the change in velocity per unit time. The resulting value will be rounded to three significant figures and accompanied by the appropriate units.

Learn more about magnetic field here:

https://brainly.com/question/19542022

#SPJ11

I am driving to CSU at 23 m/s. I'm 100 m from the intersection when I see the light turn red. My reaction time is 0.73 s. Assuming my car has a constant acceleration for its brakes, what is the total time needed to bring my car to rest right at the edge of the intersection. Answer in seconds.

Answers

The total distance is 100 m - 16.79 m = 83.21 m.  The total time needed to bring your car to rest at the edge of the intersection, we can break down the problem into two parts: the reaction time and the braking time. Since you are driving at a constant speed of 23 m/s, in 0.73 seconds your car would have traveled a distance of:

Distance = Speed × Time

Distance = 23 m/s × 0.73 s

Distance = 16.79 m

Now, let's calculate the remaining distance you need to cover to reach the edge of the intersection, considering that your car is coming to a stop. The total distance is 100 m - 16.79 m = 83.21 m.

Since your car is braking with a constant acceleration, we can use the following kinematic equation to find the braking time (t):

Distance = (Initial Velocity × t) + (0.5 × Acceleration ×[tex]t^2)[/tex]

In this case, the initial velocity is 23 m/s, the distance is 83.21 m, and the acceleration is negative (since it opposes the motion):

83.21 m = (23 m/s × t) + (0.5 × (-acceleration) × [tex]t^2)[/tex]

Learn more about acceleration here:

https://brainly.com/question/2303856

#SPJ11

A uniform meterstick balances on a fulcrum placed at the 70.0-cm mark when a weight w is placed at the 90.0- cm mark. What is the weight of the meterstick? a. 0.78w b. 1.0w C. W/2 d. 0.70w e. 0.90w f. 0.22w

Answers

The weight of the meterstick is 0.25 W.  f. 0.22w.

When a weight w is placed at the 90.0 cm mark, a uniform meterstick balances on a fulcrum placed at the 70.0 cm mark. We need to find the weight of the meterstick.  Solution:Let the weight of the meterstick be Wm and its length be Lm.The sum of the torques acting on the meterstick must be zero.τccw - τcw = 0Here, τccw is the torque that the meterstick produces clockwise direction around the fulcrum. τcw is the torque of the weight around the same point.τccw = Fm × Dm and τcw = W × DHere, Fm is the force exerted by the meterstick at its center of mass, Dm is the distance of the center of mass of the meterstick from the fulcrum and D is the distance of the weight from the fulcrum.The torque produced by the meterstick is equal in magnitude to the torque produced by the weight. We get the following equation:Fm × Dm = W × DHere, Dm + D = Lm = 1 m = 100 cm.The fulcrum is placed at the 70.0-cm mark, which is at a distance of 30.0 cm from the end of the meterstick, and the weight is placed at the 90.0-cm mark, which is 10.0 cm away from the fulcrum. We can use this information to solve the above equation as follows:Fm = Wm = W (Since the meterstick is uniform)Dm = 70.0 cm - 30.0 cm = 40.0 cmD = 10.0 cm Substituting these values in the above equation, we get,Wm = W × D / Dm = W × 10.0 cm / 40.0 cm = 0.25 W. The weight of the meterstick is 0.25 W.  f. 0.22w.

To know more about meterstick visit:

https://brainly.com/question/29690562

#SPJ11

Relativity: Length Contraction. According to Starfleet records, the Enterprise NCC-1701 is 289 meters long. If when leaving the inner Solar System under impulse power, an Earth-bound observer measures the ship's length at 152 meters, how fast was the Enterprise moving? 10% of c 65% the Speed of Light 150,000 km/s 12.99 E8 m/s .850 1/2 c.

Answers

The Enterprise NCC-1701 was moving at approximately 65% the speed of light when leaving the inner Solar System under impulse power.

According to the observer on Earth, the length of the Enterprise appeared to be contracted to 152 meters from its actual length of 289 meters. This observation can be explained by the phenomenon of length contraction in special relativity. The formula for length contraction is given by:

L' = L * ([tex]\sqrt{1 - (v^2 / c^2}[/tex]))

Where L' is the contracted length, L is the rest length, v is the velocity of the object, and c is the speed of light.

Rearranging the formula to solve for v, we get:

v = [tex]\sqrt{((1 - (L'/L)^2) * c^2)}[/tex]

Substituting the given values into the equation, we have:

v = [tex]\sqrt{((1 - (152/289)^2) * c^2)}[/tex]

v ≈ [tex]\sqrt{((1 - 0.177)^2)}[/tex] * c ≈ 0.823 * c

Therefore, the Enterprise was moving at approximately 82.3% the speed of light, or about 65% the speed of light.

Learn more about speed here ;

https://brainly.com/question/28224010

#SPJ11

(b) Two charged concentric spherical shells have radi 5.0 cm and 10 cm. The charge on the inner shell is 5.0 ng, and that on the outer shell is-20 nC. In order to calculate the electric field at a distance of 20 cm from the centre of the spheres, an appropriate Gaussian surface is A sphere with a radius of 20 cm A sphere with a radius of 10 cm a A cylinder with a radius of 20 cm A sphere with a radius of 70 cm (1) The total enclosed charge is 3.0 nc 70 nc -20 nc 5.0 nc (i) Calculate the electric field in Newtons per Coulomb at 20 cm

Answers

Answer: the electric field at a distance of 20 cm from the center of the spheres is 1.8 × 10^3 N/C.

The appropriate Gaussian surface to calculate the electric field at a distance of 20 cm from the center of the spheres is a sphere with a radius of 20 cm.

(1) The total enclosed charge is -20 nC + 5.0 ng. The total enclosed charge is

-20 nC + 5.0 ng =

-20 × 10^-9 C + 5.0 × 10^-9 C

= -15.0 × 10^-9 C.

(i) The electric field in Newtons per Coulomb at 20 cm. The electric field in N/C at a point at a distance r from the center of a spherical shell of radius R and charge q is given by the equation

E = {q(r)/4πε₀r³}.

E = Electric field in N/Cq. (r) = Total charge enclosed within the Gaussian surface which is -15.0 × 10^-9 C. ε₀ = Permittivity of free space = 8.854 × 10^-12 C²/N.m². r = distance from the center of the shell where the electric field is being calculated = 20 cm = 0.20 m.

For r > R₂, the electric field at a point outside a shell of charge q and radius R₂ is zero.

Hence, only the electric field due to the 5.0 cm inner shell will be considered. E = {q(r)/4πε₀r³}E = {5.0 × 10^-9 C/4π(8.854 × 10^-12 C²/N.m²)(0.20 m)³}E = 1.8 × 10^3 N/C.

Therefore, the electric field at a distance of 20 cm from the center of the spheres is 1.8 × 10^3 N/C.

Learn more about Gaussian surface : https://brainly.com/question/14773637

#SPJ11

A proton moves in a circle of radius 65.9 cm. The magnitude of the magnetic field is 0.2 T. What is the kinetic energy of the proton in pJ ? (1 pJ = 10-12 J) mass of proton = 1.67 × 10-27 kg. charge of proton = 1.60 X 10-¹⁹ C O a. 0.07 O b. 0.24 O c. 0.13 O d. 0.20 O e. 0.16

Answers

The kinetic energy of a proton moving in a circular path can be determined using the formula: K = (1/2)mv², where K is the kinetic energy, m is the mass of the proton, and v is its velocity.

In this case, the velocity can be calculated from the equation for centripetal force, F = qvB, where F is the force, q is the charge of the proton, v is its velocity, and B is the magnetic field. Rearranging the equation, we have v = F / (qB).

The force acting on the proton is the centripetal force, which is given by F = mv²/r, where r is the radius of the circular path. Substituting the value of v, we get v = (mv/r) / (qB). Plugging in the known values, we can calculate the velocity of the proton.

Once we have the velocity, we can substitute it into the kinetic energy formula to find the answer in joules. Finally, we convert the result to picojoules by multiplying by 10^12.

To learn more about kinetic energy, Click here: brainly.com/question/999862

#SPJ11

3.00 kilograms of hydrogen are converted to helium by nuclear fusion. How much of it, in kilograms, remains as matter (and is thus not converted to energy)? ke

Answers

When 3.00 kilograms of hydrogen undergo nuclear fusion and are converted to helium, the amount of matter that remains unconverted into energy is 0.0294 kilograms, which is equivalent to 29.4 grams.

Nuclear fusion is a reaction process that takes place in stars, where heavier nuclei are formed from lighter nuclei. When 3.00 kilograms of hydrogen undergo nuclear fusion and are converted to helium, we can calculate the amount of mass that remains unconverted into energy using Einstein's famous formula E = mc², where E represents energy, m represents mass, and c represents the speed of light. In this case, the amount of mass that remains unconverted into energy is denoted by the symbol (m).

Given that the mass of hydrogen is 3.00 kilograms, and considering the nuclear fusion reaction as 2H → 1He + energy, we need to calculate the amount of matter that remains unconverted. The mass of 2H (two hydrogen nuclei) is 2.01588 atomic mass units (u), and the mass of 1He (helium nucleus) is 4.0026 u. Therefore, the difference in mass is calculated as 2.01588 + 2.01588 - 4.0026 = 0.02916 u.

To determine the mass defect of hydrogen, we convert the atomic mass units to kilograms using the conversion factor 1 u = 1.661 × 10^-27 kilograms. Thus, the mass defect can be calculated as m = (0.02916/2) × 1.661 × 10^-27 = 2.422 × 10^-29 kilograms.

Therefore, when 3.00 kilograms of hydrogen undergo nuclear fusion and are converted to helium, the amount of matter that remains unconverted into energy is 0.0294 kilograms, which is equivalent to 29.4 grams.

Learn more about hydrogen

https://brainly.com/question/30623765

#SPJ11

Electrical current in a conductor is measured as a constant 2.45 mA for 28 S. How many electrons pass a section of the conductor in this time interval?

Answers

we need to calculate the total charge passing through the conductor and then convert it to the number of electrons. Thus, in the given time interval of 28 s, approximately 4.29 x 10^17 electrons pass through the section of the conductor.

First, we need to calculate the charge passing through the conductor using the formula Q = I * t. The current is given as 2.45 mA, which we convert to Amperes by dividing by 1000, resulting in 0.00245 A. The time is given as 28 s. Therefore, the charge passing through the conductor is Q = 0.00245 A * 28 s = 0.0686 C.

To convert the charge to the number of electrons, we divide it by the elementary charge, denoted as e. The elementary charge represents the charge carried by a single electron, which is approximately 1.6 x 10^-19 C. Therefore, the number of electrons passing through the conductor is 0.0686 C / (1.6 x 10^-19 C) = 4.29 x 10^17 electrons.

Learn more about conductor here:

https://brainly.com/question/14405035

#SPJ11

Suppose you throw a rubber ballat a charging elephant not a good idea) When the ball bounces back toward you, is its speed greater than less than or the speed with which you there? Greater than initial speed Lou than inte speed O Equal to initial speed

Answers

When the ball bounces back toward you after throwing it at a charging elephant (not a good idea), its speed will be less than the initial speed with which you threw it.

The rubber ball will move less quickly when it comes back your way after being hurled towards a rushing elephant. The conservation of mechanical energy is to blame for this. The ball collides with the elephant, transferring part of its original kinetic energy to the animal or dissipating it as heat and sound. The ball loses energy as a result of the contact, which lowers its speed. The elastic properties of the ball and the surface it bounces off can also have an impact on the ball's subsequent speed.

Learn more about bounces here;

https://brainly.com/question/31657109

#SPJ11

The following information is used for all questions in this quiz. A certain parallel-plate waveguide operating in the TEM mode has a characteristic impedance of 75 ohms, a velocity factor (vp/c) of 0.408, and loss of 0.4 dB/m. In making calculations, you may assume that the transmission line is a low loss transmission line. Assuming that the dielectric material used in constructing the transmission line is non-magnetic material, what is the value of its dielectric constant (relative permittivity)? Express your answer as a dimensionless quantity to two places after the decimal.

Answers

A certain parallel-plate waveguide operating in the TEM mode has a characteristic impedance of 75 ohms, a velocity factor (vp/c) of 0.408, and loss of 0.4 dB/m.  The dielectric constant (relative permittivity) of the non-magnetic material used in the transmission line is 1.

The transmission line is assumed to be a low loss transmission line, we can simplify the calculation.

In a low loss transmission line, the attenuation constant (α) is much smaller than the propagation constant (β), which is given by:

β = ω × sqrt(ε_r × μ_r)

In the TEM mode, β = 0.

Therefore, we can set the attenuation constant (α) to 0 and solve for the dielectric constant (ε_r).

0 = (ω / 0.408) × sqrt((ε_r - 1) / 2)

Since α = 0, the term inside the square root must be 0 as well:

(ε_r - 1) / 2 = 0

ε_r - 1 = 0

ε_r = 1

Hence, the dielectric constant (relative permittivity) of the non-magnetic material used in the transmission line is 1.

To learn more about attenuation constant  visit: https://brainly.com/question/30905516

#SPJ11

A solid 0.5150 kg ball rolls without slipping down a track toward a vertical loop of radius R=0.7350 m. What minimum translational speed v min

must the ball have when it is a height H=1.131 m above the bottom of the loop in order to complete the loop without falling off the track? Assume that the radius of the ball itself is much smaller than the loop radius R. Use g=9.810 m/s 2
for the acceleration due to gravity. v min

= m/s

Answers

Given data:Mass of ball = 0.5150 kgRadius of loop = R = 0.7350 mHeight above the bottom of the loop = H = 1.131 m Acceleration due to gravity = g = 9.810 m/s².

Let us first find the minimum speed of the ball required to complete the loop without falling off. We will use the principle of conservation of mechanical energy to do this.Initial energy of ball = mgh Potential energy gained by the ball at top of the loop = mg (2R)Total energy of ball = mgh + mg(2R)As per the principle of conservation of mechanical energy, the total energy of the ball at the initial position should be equal to its total energy at the top of the loop when it is about to complete the loop without falling off.

That is,  mgh + mg(2R) = 1/2mv² + 1/2Iω² ... (1)Here, I is the moment of inertia of the ball about its center of mass. Since the ball is rolling without slipping, we have I = 2/5 mr², where r is the radius of the ball, which is much smaller than the radius of the loop R.ω is the angular velocity of the ball, which is related to its linear velocity v as ω = v/r.Substituting these values in equation (1) we get, mgh + mg(2R) = 1/2mv² + 1/2(2/5 mr²)(v/r)² ... (2)Simplifying this expression we get, mv²/2 = mg(H + 2R) - mgh - 2/5 mv²... (3)Solving for v, we get, v² = 10g(H + 2R)/7 - 10gh/7 ... (4)Substituting the given values in equation (4) we get, v² = 10 × 9.810 × (1.131 + 2 × 0.7350)/7 - 10 × 9.810 × 1.131/7v² = 7.23729v = √7.23729v = 2.69 m/s.

Therefore, the minimum translational speed v min​ that the ball must have when it is a height H=1.131 m above the bottom of the loop in order to complete the loop without falling off the track is 2.69 m/s.

Learn more on mechanical energy here:

brainly.in/question/27481003

#SPJ11

What is true about Numerical Aperture?
t gives the minimum size that a microscope can resolve
it gives the maximum magnification for a telescope
it describes the opening of the cone of light that enters the objective
Light collected is proportional to NA
Values > 1 are impossible
values > 0.95 are rare for objectives working in air

Answers

The numerical aperture (NA) describes the opening of the cone of light that enters the objective and is true about it.

Numerical aperture (NA) is a measure of the ability of an optical instrument to collect and focus light and is defined as the sine of the half-angle of the maximum cone of light that can enter the objective. As a result, NA gives the minimum size that a microscope can resolve. The larger the NA, the smaller the smallest resolvable feature, and the greater the optical resolution that can be obtained.

The other statements listed in the question are false. Numerical aperture (NA) does not give the maximum magnification for a telescope. Numerical Aperture (NA) describes the opening of the cone of light that enters the objective, and light collected is proportional to NA. Values greater than 1 are possible for a medium having a refractive index greater than that of air. However, for objectives working in air, values greater than 0.95 are uncommon.

Learn more about Numerical aperture here

https://brainly.com/question/30389395

#SPJ11

As a result of friction between internal parts of an isolated system a. the total mechanical energy of the system increases. b. the total mechanical energy of the system decreases. c. the total mechanical energy of the system remains the same. d. the potential energy of the system increases but the kinetic energy ternains the sea e. the kinetic energy of the system increases but the potential energy of the system tomans free P6: A 500-kg roller coaster starts with a speed of 4.0 m/s at a point 45 m above the bouem diz the figure below). The speed of the roller coaster at the top of the next peak, which is 30 sette bottom of the dip, is 10 m/s. Calculate the mechanical lost due to friction when the sazza second peak. a. 2.1x104 e. 1.5x105 J b. 4.8x104 J f. none of the above c.5.2x104 J 4.7 4x1043

Answers

The mechanical energy lost due to friction when the roller coaster reaches the second peak is 12000 J. As a result of friction between internal parts of an isolated system, the total mechanical energy of the system decreases. Therefore, the correct answer is (b) the total mechanical energy of the system decreases.

Friction is a dissipative force that converts mechanical energy into thermal energy. When there is friction within an isolated system, the mechanical energy of the system is gradually transformed into other forms of energy, such as heat or sound.

The total mechanical energy of a system is the sum of its kinetic energy and potential energy. In the absence of external forces, the law of conservation of mechanical energy states that the total mechanical energy of a system remains constant.

However, when friction is present, some of the mechanical energy is lost due to the work done against friction. This loss of mechanical energy results in a decrease in the total mechanical energy of the system.

It's important to note that the specific form of energy lost due to friction depends on the nature of the frictional forces involved. In most cases, friction leads to the conversion of mechanical energy into thermal energy.

In summary, friction between internal parts of an isolated system causes a decrease in the total mechanical energy of the system. This is because friction converts mechanical energy into other forms of energy, such as heat, resulting in a loss of mechanical energy.

The initial mechanical energy is given by the sum of its potential energy (PE) and kinetic energy (KE) at the starting point:

Initial mechanical energy = PE + KE

PE = mgh

where m is the mass of the roller coaster (500 kg), g is the acceleration due to gravity (9.8 [tex]m/s^2[/tex]), and h is the height (45 m).

KE = (1/2)[tex]mv^2[/tex]

where v is the initial velocity (4.0 m/s).

Substituting the values, we find the initial mechanical energy:

Initial mechanical energy = (500 kg)(9.8)(45 m) + (1/2)(500 kg)(4.0)

The final mechanical energy can be calculated using the same formula, considering the height (30 m) and velocity (10 m/s) at the top of the next peak.

Final mechanical energy = (500 kg)(9.8 )(30 m) + (1/2)(500 kg)(10)

The mechanical energy lost due to friction can be obtained by subtracting the final mechanical energy from the initial mechanical energy:

Mechanical energy lost = Initial mechanical energy - Final mechanical energy

Calculating the values, we find:

Initial mechanical energy = 220500 J

Final mechanical energy = 208500 J

Mechanical energy lost = 220500 J - 208500 J = 12000 J

Therefore, the mechanical energy lost due to friction when the roller coaster reaches the second peak is 12000 J.

Learn more about friction here:

https://brainly.com/question/13000653

#SPJ11

. Monochromatic light with wavelength 540 nm is incident on a double slit with separation 0.22 mm. What is the separation of the central bright fringe from the next bright fringe in the interference pattern on a screen 5.2 m from the double slit? A. 0.13 mm B. 13 cm C. 1.3 cm D. 1.3 mm

Answers

The correct answer Separation of the central bright fringe from the next bright fringe in the interference pattern =option is C. 1.3 cm.

We can calculate the separation of the central bright fringe from the next bright fringe in the interference pattern using the formula below:dx = λD/dwhereλ = 540 nm = 540 × 10⁻⁹ mD = 5.2 m d = 0.22 mm = 0.22 × 10⁻³ m= 2.2 × 10⁻⁴ m.

Substituting the given values in the formula, we get:dx = λD/d= (540 × 10⁻⁹ m) × (5.2 m)/ (2.2 × 10⁻⁴ m)= 12.9 × 10⁻³ m = 1.3 × 10⁻² cmThus, the separation of the central bright fringe from the next bright fringe in the interference pattern on a screen 5.2 m from the double slit is 1.3 cm.

Separation of the central bright fringe from the next bright fringe in the interference pattern = 1.3 cm (rounded off to one decimal place).

Learn more about fringe here,

https://brainly.com/question/29487127

#SPJ11

Snell's Law: Light enters air from an ice cube. The angle of refraction will be... o less than the angle of incidence greater than the angle of incidence equal to the angle of incidence

Answers

The angle of refraction when light enters air from an ice cube will be greater than the angle of incidence.

Snell's law describes the relationship between the angles of incidence and refraction when light passes through the interface between two different media.

It states that the ratio of the sine of the angle of incidence to the sine of the angle of refraction is equal to the ratio of the velocities of light in the two media. In this case, as light travels from the denser medium (ice) to the less dense medium (air), it undergoes refraction.

When light passes from a denser medium to a less dense medium, such as from ice to air, the angle of refraction is always greater than the angle of incidence.

This phenomenon is due to the change in the speed of light as it enters the new medium. As light enters air from an ice cube, it speeds up since the refractive index of air is lower than that of ice.

This increase in speed causes the light rays to bend away from the normal, resulting in a greater angle of refraction compared to the angle of incidence.

Therefore, the angle of refraction when light enters air from an ice cube will be greater than the angle of incidence, according to Snell's law.

Learn more about refraction here ;

https://brainly.com/question/14760207

#SPJ11

Calculate the angular momenta of the earth due to its rotational motion about its own axis (effect days and nights) and due to its rotational motion around the sun (effect season change).

Answers

The angular momenta about its own axis is7.2 *[tex]10^{33}[/tex] kg[tex]ms^{2}[/tex][tex]s^{-1}[/tex].The angular momenta of earth around the sun is 2.663x[tex]10^{40}[/tex] kg[tex]m^{2} s^{-1}[/tex]

To calculate the angular momenta of the Earth, we need to consider two components: Angular momentum due to the Earth's rotational motion about its own axis (causing day and night).

Angular momentum due to the Earth's rotational motion around the Sun (causing season change).Let's calculate each component separately:

Angular momentum due to the Earth's rotational motion about its own axis:The formula for angular momentum is given by L = Iω, where L is the angular momentum, I is the moment of inertia, and ω is the angular velocity.

The moment of inertia for a solid sphere rotating about its axis is given by I = (2/5) * M * R^2, where M is the mass of the Earth and R is the radius of the Earth.

The angular velocity of the Earth's rotation about its own axis is approximately ω = 2π/T, where T is the period of rotation. The period of rotation for the Earth is approximately 24 hours, which is equivalent to 86,400 seconds.

Substituting the values into the formula, we have:

L1 = I * ω = (2/5) * M * R^2 * (2π / T)=7.2 *[tex]10^{33}[/tex] kg[tex]ms^{2}[/tex][tex]s^{-1}[/tex]

Angular momentum due to the Earth's rotational motion around the Sun:The formula for angular momentum in this case is also L = Iω, but the moment of inertia and angular velocity are different.

The moment of inertia for a planet rotating around an axis passing through its center and perpendicular to its orbital plane is given by I = M * R^2, where M is the mass of the Earth and R is the average distance from the Earth to the Sun (approximately 149.6 million kilometers).

The angular velocity for the Earth's rotation around the Sun is approximately ω = 2π / T', where T' is the period of revolution. The period of revolution for the Earth around the Sun is approximately 365.25 days, which is equivalent to approximately 31,557,600 seconds.

Substituting the values into the formula, we have:

L2 = I * ω = M * R^2 * (2π / T')=2.663x[tex]10^{40}[/tex] kg[tex]m^{2} s^{-1}[/tex]

Please note that the above calculations assume certain idealized conditions and do not take into account factors such as the Earth's axial tilt or variations in orbital speed due to elliptical orbits.

Learn more about angular momenta here ;

https://brainly.com/question/13262295

#SPJ11

A very long insulating cylinder of charge of radius 2.70 cm carries a uniform linear density of 16.0nC/m If you put one probe of a voltmeter at the surface, how far from the surface must the other probe be placed so that the voltmeter reads 175 V ? Express your answer in centimeters.

Answers

The potential difference between the two probes of a voltmeter is given by V = E × d, where E is the electric field and d is the distance between the two probes.  

Electric field at a point on the surface of a charged cylinder is given by:$$E = \frac{\lambda}{2 \pi \epsilon_{0} r}$$where λ is the linear charge density of the cylinder, ε₀ is the permittivity of free space, and r is the radius of the cylinder.

Substituting the given values, we get:$$E = \frac{(16.0 \space nC/m)}{2 \pi (8.85 \times 10^{-12} \space C^{2}/N \cdot m^{2})(2.70 \times 10^{-2} \space m)}$$$$E = 2551.9 \space N/C$$Now we can use V = E × d to find the distance d:$$175 \space V = (2551.9 \space N/C) \times d$$$$d = \frac{175 \space V}{2551.9 \space N/C}$$$$d = 0.0686 \space m = 6.86 \times 10^{-2} \space m = 6.86 \times 10^{1} \space cm$$.

Therefore, the other probe of the voltmeter must be placed 6.86 cm from the surface.

Learn more on potential here:

brainly.in/question/3901787

#SPJ11

A heat engine manufacture claims the following: the engine's heat input per second is 9.0 kJ at 435 K, and the heat output per second is 4.0 kJ at 285 K. a) Determine the efficiency of this engine based on the manufacturer's claims. b) Determine the maximum possible efficiency for this engine based on the manufacturer's claims. c) Should the manufacturer be believed? i.e. This engine ______ thermodynamics. does not violate does violates the second law of

Answers

a) Efficiency of the heat engine based on the manufacturer's claims is 26.2%.

b) Maximum possible efficiency for the heat engine based on the manufacturer's claims is 38.0%.

c) The manufacturer should be believed. This engine does not violate the second law of thermodynamics.

a) Efficiency of the heat engine based on the manufacturer's claims is 26.2%.

Formula used to calculate efficiency of heat engine:

Efficiency = 1 - T2/T1 Where,

T1 is the temperature of the hot reservoir.

T2 is the temperature of the cold reservoir.

So, T1 = 435 K and T2 = 285 K.

Efficiency = 1 - 285/435

Efficiency = 0.262 or 26.2%.

b) Maximum possible efficiency for the heat engine based on the manufacturer's claims is 38.0%.

Formula used to calculate maximum possible efficiency of heat engine:

Maximum possible efficiency = 1 - T2/T1

Where,

T1 is the temperature of the hot reservoir.

T2 is the temperature of the cold reservoir.

So, T1 = 435 K and T2 = 273 K (0°C).

Maximum possible efficiency = 1 - 273/435

Maximum possible efficiency = 0.3768 or 37.68%.

c) The manufacturer should be believed. This engine does not violate the second law of thermodynamics.

Learn more about heat engine https://brainly.com/question/15105740

#SPJ11

Before the 1998 discovery of accelerating expansion, astronomers focused on the so-called standard models. Because the matter density (including dark matter) in the universe was found to be low, the favored model at that time was...
A.) closed
B.) flat
C.) open
D.) spherical

Answers

Before the discovery of accelerating expansion in 1998, astronomers favored the flat model for the universe due to the low matter density.

Before the discovery of accelerating expansion, astronomers relied on the standard models to describe the structure of the universe. These models were based on the understanding that the matter density, including dark matter, played a crucial role in determining the overall geometry of the universe. Observations indicated that the matter density was relatively low, leading to the favored model being a flat universe.

In a flat universe model, the overall geometry is considered to be flat, similar to a Euclidean space. This means that the geometry obeys the laws of Euclidean geometry, where parallel lines do not intersect and the sum of angles in a triangle is 180 degrees. A flat universe suggests that the expansion of the universe will continue indefinitely without collapsing or expanding at an accelerating rate.

The other options listed - closed, open, and spherical - refer to different geometries of the universe. A closed universe implies a positively curved geometry, while an open universe indicates a negatively curved geometry. A spherical universe implies a specific type of closed geometry where the universe wraps around itself. However, due to the observed low matter density, the flat model was the favored choice before the discovery of accelerating expansion.

Learn more about density here:

https://brainly.com/question/952755

#SPJ11

. For the roller coaster shown below, Points A and C are 10 m and 4 m above the ground, respectively. Point B is at ground level. Calculate the speeds of the cars at Points B and if the speed at Point A is approximately zero. As stated earlier, assume that there are no dissipative effects. (No, the mass of the car is not given.) speed at B only ) A B U mass cancels out in the algebra

Answers

The speed of the roller coaster car at Point B is 14m/s

In this problem, we can apply the principle of conservation of energy to find the speed of the roller coaster car at Point B. At Point A, the car is at a height of 10 m above the ground and has zero speed. At Point B, the car is at ground level, so its height above the ground is zero.

According to the principle of conservation of energy, the total mechanical energy of the system remains constant. At Point A, the car has potential energy due to its height above the ground, but no kinetic energy because its speed is zero. At Point B, the car has no potential energy because its height is zero, but it will have kinetic energy due to its speed.

Since there are no dissipative effects, the mechanical energy at Point A is equal to the mechanical energy at Point B. Mathematically, this can be expressed as:

m * g * hA = 0.5 * m * vB^2

Here, m represents the mass of the car, g is the acceleration due to gravity (approximately 9.8 m/s^2), hA is the height at Point A (10 m), and vB is the speed at Point B that we want to calculate.

The mass of the car cancels out in the equation, simplifying it to:

g * hA = 0.5 * vB^2

Plugging in the values, we have:

9.8 m/s^2 * 10 m = 0.5 * vB^2

Solving for vB gives us:

vB^2 = 9.8 m/s^2 * 10 m * 2

vB^2 = 196 m^2/s^2

vB = √(196 m^2/s^2)

vB ≈ 14 m/s

Learn more about energy here:

https://brainly.com/question/1932868

#SPJ11

Calculate the pressure drop along 0.5 m of 0.1 m diameter horizontal steel pipe through which a fluid at 35 °C is flowing at the rate of 56 m³ min 3 1 Viscosity of fluid at 35 °C = 1156 CP Density of fluid at 35 °C = 156 kg m -3

Answers

The pressure drop along the 0.5 m of 0.1 m diameter horizontal steel pipe is approximately 59.8 Pa.

The Darcy-Weisbach equation relates the pressure drop (ΔP) in a pipe to various factors such as pipe length (L), diameter (D), flow rate (Q), viscosity (μ), and density (ρ) of the fluid. It is given by ΔP = (f (L/D) (ρV²)/2), where f is the friction factor.

First, we need to convert the flow rate from m³/min to m³/s. Given that the flow rate is 56 m³/min, we have Q = 56/60 = 0.9333 m³/s.

Next, we can calculate the Reynolds number (Re) using the formula Re = (ρVD/μ), where V is the average velocity of the fluid. Since the pipe is horizontal, the average velocity can be determined as V = Q/(πD²/4).

Using the given values, we can calculate the Reynolds number as Re ≈ 725.

Based on the Reynolds number, we can determine the friction factor (f) using appropriate correlations or charts. For a smooth pipe and turbulent flow, we can use the Colebrook equation or Moody chart.

Once we have the friction factor, we can substitute all the values into the Darcy-Weisbach equation to find the pressure drop (ΔP).

Calculating the pressure drop, we find ΔP ≈ 59.8 Pa.

Learn more about pressure here:

https://brainly.com/question/29341536

#SPJ11

Explain why the Sun appears to move through the stars during the course of a year. How does the Sun's motion through the stars affect the constellations seen in the nighttime sky? 1. How is the distribution of electrons amone the perabiele ererzs levels in a degenerate cas diflerent than that in an ordinary gas? Mow do the properties of a degenerate tat satter from those of an ordinary gas? 2. How do astronomers know that the formation of planetary nebulae is a common occurtence dutime the evolution of medium-mass stars? B 3. Why do the stars in a cluster evolve at different rates? Explain how the H-R diagram of a cluster of stars can be used to find the age of the cluster. 4. Explain how the distance to a Cepheid variable star can be determined from its light curve.

Answers

The relationship between a Cepheid variable's luminosity and pulsation period has been established as a way to estimate the distance to the star.

How is the distribution of electrons among the probable energy levels in a degenerate case different from that in an ordinary gas? How do the properties of a degenerate gas differ from those of an ordinary gas? In a degenerate gas, the electrons are compacted in the lower energy levels and become tightly jammed. As a result, their distribution varies from the probable energy levels predicted by the Maxwell-Boltzmann statistics. The most important property of a degenerate gas is that its pressure is not connected to its temperature, unlike an ordinary gas. When the pressure of an ordinary gas is decreased, the molecules move slower, and the temperature drops. This is not the case with a degenerate gas. Because of the limitations of quantum mechanics, the electrons in a degenerate gas are so tightly packed that they cannot be further compressed. The gas pressure is caused by electron compression and is proportional to the number of electrons in the gas.

How do astronomers know that the formation of planetary nebulae is a common occurrence during the evolution of medium-mass stars? Astronomers know that planetary nebulae formation is a common event during the evolution of medium-mass stars since roughly 10% of all stars have a mass between 1 and 8 solar masses. These stars lose a large portion of their original mass when they transform into planetary nebulae in the later phases of their lives. Planetary nebulae may have played a crucial role in the formation of the Milky Way's interstellar medium and the cycles of star formation and interstellar matter redistribution that exist in the universe.

Why do the stars in a cluster evolve at different rates? Explain how the H-R diagram of a cluster of stars can be used to find the age of the cluster. The stars in a cluster evolve at different rates due to variations in their initial mass. Massive stars, for example, evolve much more quickly than less massive stars and die as supernovae. Star clusters are valuable laboratories for testing our theories about stellar evolution since all of the stars were formed at the same time from the same material. By analyzing the H-R diagram of a star cluster, we can determine the age of the cluster. This is due to the fact that the brightness and surface temperature of a star are both dependent on its mass and stage of evolution.

Explain how the distance to a Cepheid variable star can be determined from its light curve. The relationship between a Cepheid variable's luminosity and pulsation period has been established as a way to estimate the distance to the star. The period of a Cepheid variable star is directly linked to its absolute luminosity: brighter stars have longer periods. When we determine the star's period and apparent brightness, we can use this relationship to calculate the star's absolute brightness. The distance to the star may be calculated once we know its actual brightness and apparent brightness. The period-luminosity relationship for Cepheid variables was discovered by Henrietta Swan Leavitt in 1912.

To know more about temperature visit:

brainly.com/question/11464844

#SPJ11

Describe the image properties when the converging mirror (Concave) has an object closer to it than its focal length?

Answers

When an object is positioned closer to a concave (converging) mirror than its focal length, the image formed will have the following properties: 1. Virtual Image, 2. Enlarged Image, 3. Upright Orientation, 4. Reduced Distance, 5. Realism.

1. Virtual Image: The image formed will be virtual, meaning it cannot be projected onto a screen. It can only be seen when looking into the mirror.

2. Enlarged Image: The image will be magnified compared to the size of the object. The height of the image will be greater than the height of the object.

3. Upright Orientation: The image will be upright, meaning it will have the same orientation as the object. This occurs because the light rays from the object diverge and then appear to converge from behind the mirror, forming the virtual image.

4. Reduced Distance: The image will appear closer to the mirror than the object itself. The distance between the mirror and the image will be smaller than the distance between the mirror and the object.

5. Realism: Although the image is virtual, it appears as if it is a real object located behind the mirror. This is due to the apparent path of the light rays.

Overall, when an object is placed closer to a concave mirror than its focal length, a magnified, upright, virtual image is formed that appears closer to the mirror than the object itself.

Learn more about focal length

https://brainly.com/question/31755962

#SPJ11

300 g of water is brought to boiling temperature. The water is then left to cool to room temperature (25°C). The specific heat heat capacity is 4200 J/kg°C. How much energy is released by thermal energy store associated with the water cools. Show working

Answers

Answer:

94.5kJ

Explanation:

To calculate the energy released by the thermal energy store associated with the water cooling, we can use the following formula:

Q = mcΔT

where Q is the energy released, m is the mass of the water, c is the specific heat capacity of water, and ΔT is the change in temperature.

We first need to calculate the temperature change of the water. The initial temperature of the water is the boiling point of 100°C, and the final temperature is the room temperature of 25°C. Therefore, the temperature change is:

ΔT = (25°C - 100°C) = -75°C

Note that the temperature change is negative because the water is cooling down.

Next, we can substitute the given values into the formula and solve for Q:

Q = (0.3 kg) x (4200 J/kg°C) x (-75°C)

Q = -94500 J

The negative sign indicates that energy is released by the thermal energy store associated with the water cooling. Therefore, the energy released is 94,500 J, or approximately 94.5 kJ.

Your directions on a scavenger hunt map say to walk 39 m east, then 49 m south, then 25 m northwest. The positive z direction is the direction to the east and the positive y direction is the direction to the north.
Part A What is your displacement in polar coordinates? Part B What is your displacement in Cartesian coordinates?

Answers

Your directions on a scavenger hunt map say to walk 39 m east, then 49 m south, then 25 m northwest. The positive z direction is the direction to the east and the positive y direction is the direction to the north.

Part A: What is your displacement in polar coordinates?

To find the displacement in polar coordinates, we need to find the magnitude and direction (angle) of the displacement. The magnitude of the displacement is the distance between the initial and final positions, which is given by:

r = sqrt{(39+25)^2 + (-49)^2} ≈ 61.74m

The angle θ is the angle that the displacement vector makes with the positive x-axis. This angle can be found using the tangent function:

∅= tan^(-1){-49}/{39+25} ≈ -54.49°

Therefore, the displacement in polar coordinates is approximately (61.74, -54.49°).

Part B: What is your displacement in Cartesian coordinates?

To find the displacement in Cartesian coordinates, we need to add up the x, y, and z components of the displacement. We can find these components using trigonometry:

x = 39 + 25cos(45°) ≈ 60.66

y = -49 + 25sin(45°) ≈ -17.68

z = 0

Therefore, the displacement in Cartesian coordinates is approximately (60.66, -17.68, 0).

Learn more about the Cartesian coordinates system: https://brainly.com/question/4726772

#SPJ11

Other Questions
Use the five numbers 17,12,18,15, and 13 to complete parts a) through e) below. a) Compute the mean and standard deviation of the given set of data. The mean is x= and the standard deviation is s= (Round to two decimal places as needed.) A small steel ball moves in a vertical circle in a counter-clockwise direction with an angular velocity of 4 radians/s. with a radius of 2.50 m at a time t = 0 s. The shadow of this steel ball is at +1.00 m in the X-axis and is moving to the right.a) Find xt) indicating its position. (SI units)b) Find the velocity and acceleration in the X-axis as a function of the time of this shadow.Mass 100 g is attached to the tip of an aerated spring with spring constant. 20.0 Nm, then this mass is taken out at a distance of 10.00 cm from the equilibrium point. and released from standstilla) Find the period of vibrationb) What is the magnitude of the greatest acceleration of this mass? and where does it occur?c) What is the greatest velocity of this mass?d) Write the equation of motion as a function of time in SI to express position (t), velocity V(t), and acceleration a(t) 2. The annual interest rate of a bond that matures 3 years from now is 4%, while the annual interest rate of a bond that matures 7 years from now is 8%. Some investor wishes to save her/his future income from year 3 to year 7 at a predetermined interest rate. In this situation,(a) What is the fair interest rate for this forward contract?(b) Alternatively, we can say that the current price of a bond that matures at year 3 is $0.8890, while the current price of a bond that matures at year 7 is $0.5835. In situation, if an investor wishes to buy the bond that matures at year 7, 3 years later, instead of today, at what price can she/he buy that bond at year 3?(c) If the investor can buy a bond that matures at year 7 at the price obtained in (b) three year from now, what interest rate she/he would basically earn from that bond? Is that interest the same as the interest rate obtained in (a)? Desventajas de crear tabla de contenido ? Rank these least polar=1 to most polar=11 and why the most polar is the most polar any amendment to the constitution can be alteredor repealed by When parallel lines are intersected by a transversal, which of the following angle pairs are supplementary? explain with detailBriefly discuss and compare the significance of feed forward and feed backward control system with suitable examples. Does legalizing marijuana and/or other "drugs" increase ordecrease (or not affect at all) the rate of use and abuse amongteens? Use scholarly sources to support your answer. Write Two Diary Entries about your feelings and expectations.The first entry must indicate how you felt after before you left for the City,and the second one must express how you felt after you left your home? Finance, or financial management, requires the knowledge and precise use of the language of the field. Match the terms relating to the basic terminology and concepts of the time value of money on the left with the descriptions of the terms on the right. Read each description carefully and type the letter of the description in the Answer column next to the correct term. These are not necessarily complete definitions, but there is only one possible answer for each term. Time value of money calculations can be solved using a mathematical equation, a financial calculator, or a spreadsheet. Which of the following equations can be used to solve for the future value of a lump sum? PMT ({1[1/(1+r)n]}/r)(1+r) PMT/r FV/(1+r)nPV(1+r)n Which of the following is not true about Real Time Protocol (RTP)?a.RTP packets include enough information to allow the destination end systems to know which type of audio encoding was used to generate them. b.RTP encapsulation is seen by end systems only. c.RTP packets include enough information to allow the routers to recognize that these are multimedia packets that should be treated differently. d.RTP does not provide any mechanism to ensure timely data delivery Given an infinite sequence x(n) = en/2.u(n). Produce a new sequence for 3x(5n/3). The difference equation of a linear time-invariant system is given by: (4 marks) A 2.6 kg mass is connected to a spring (k=106 N/m) and is sliding on a horizontal frictionless surface. The mass is given an initial displacement of +10 cm and released with an initial velocity of -11 cm/s. Determine the acceleration of the spring at t=4.6 seconds. (include units with answer) You are the water superintendent. One of your workers performs preventive maintenance (PM) inwater meters. The worker spends three-fourth of his time on PM. His annual salary is 22,000. The city pays7.65%, which is the employers share of Social Security, and 15% for hospitalization and pensions. PM supplycosts are $2,500. The worker travels 10,000 miles while maintaining meters, for which the garage charges 20cents per mile. Overhead costs applied to direct costs are 30 percent. A total of 3,500 meters were maintained.A private firms offers to do your PM for $10 a meter. Given the following information, should you contract out? Answer the following true of false questions about LINUX systems1. When a soft link to a file is created, only a new file (the link file) is created in the destination directory.2. Regular expressions are a set of rules that can be used to specify one or more items in a single character string.3. The sort command is commonly used to sort text files but it can be used to sort lines in a non-text file, too4. When a process is in the ready state, it is ready to use the CPU Sometimes called known unknowns and are included in the project cost baseline: Emergency Reserves Management Reserves Just in time Reserves Contingency Reserves How many grams of copper(II) chloride would you need in order to prepare 3.5 L with a concentration of 0.020M ? Two point charges of 6.96 x 10-9 C are situated in a Cartesian coordinate system. One charge is at the origin while the other is at (0.71, 0) m. What is the magnitude of the net electric field at the location (0, 0.78) m? FILL THE BLANK.Not yet answered Points out of 100 Flag question FINAL: Episodic memories are ----- --- memories, and semantic memories are memories: a. Nondeclarative declarative b. Declarative declarative c. Nondeclarative nondeclarative d. Declarative nondeclarative