a water balloon dropped from the top of a building accelerates at 9.8 meters/second/second. If it starts from rest, and falls for 6 seconds before it hits the ground, what will its speed be just before it hits?

Answers

Answer 1

The final speed is 58.8 m/s.

What is the final speed?

We have to note that if we are to solve the problem that we have here, we have to look at the equations of motion and this is how we can be able to get the final velocity of the object.

Thus we are going to have that;

v = u + gt

v = final speed

u =- initial speed

g = acceleration

t = time

v = gt

v = 9.8 * 6

= 58.8 m/s

The object is going to have a final speed of about 58.8 m/s when we look at the calculations above here.

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Related Questions

One principle of this course states, "Communication cannot be reversed." Explain this statement in your own words AND provide at least one personal example when you wished you could "un-send" a message.

Answers

Communication cannot be undone once it has been sent, hence it is impossible to undo any effects it may have had on the recipient.

Is it possible to reverse communication?

Interpersonal communication is an irreversible process; you can later apologize for something you said and wish you hadn't said it, but you can't take it back. We frequently act and speak with people depending on prior communication experiences.

Reverse example: What is it?

In passive sentences, the typical word order is reversible. The two stamps were turned on their sides by him. A second vehicle backed out of the drive. He drove away after doing a U-turn. Driving backwards directly at the officer of the law, he.

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FILL IN THE BLANK the semilunar valves will open when the pressure within the_____ exceeds the pressure within the ______ .

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The semilunar valves will open when the pressure within the ventricles exceeds the pressure within the great arteries.

What are semilunar valves?

The heart valve located at the base of the aorta and the pulmonary artery is known as a semilunar valve. It is made up of cusps or flaps that prevent the blood from flowing backwards during the systole phase of the heart's beat. The semilunar valves are responsible for controlling the flow of blood between the ventricles and the main arteries, which directs blood flow away from the heart and towards the organs that are necessary for survival.

Mitral and tricuspid valves prevent blood from flowing backwards into the atria. This is necessary because blood travels from the atria to the ventricles. Pressure differences between the chambers are the driving force behind the opening and closing of semilunar valves, which are controlled by how they are operated.

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a jet plane is cruising at 320 m/s when suddenly the pilot turns the engines up to full throttle. after traveling 4.0 km , the jet is moving with a speed of 400 m/s . a. What is the jets acceleration, assuming it to be a constant acceleration?
b. Is your answer reasonable ? Explain.

Answers

A acceptable acceleration for a jet plane in these circumstances is 25 m/s2. The jet in this problem accelerates quickly from cruising speed to a higher speed.

What are velocity and acceleration?

Velocity is the term for the rate at which a displacement changes. Acceleration is the term for the measurement of a change in velocity.

a. To determine the jet's acceleration, we can apply the equation for constant acceleration:

v_f² = v_i + 2ad

Substituting the given values, we get:

(400 m/s)² = (320 m/s)² + 2a(4.0 km)

Simplifying and solving for a, we get:

a = [(400 m/s)² - (320 m/s)²] / (2 × 4.0 km)

≈ 25 m/s²

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car bumpers are designed to limit the extent of damage to the car in the case of low-velocity collisions. consider a 3600 lb passenger car impacting a concrete barrier while traveling at a speed of 4.0 mph. model the car as a particle, and consider two types of bumpers: (1) a simple linear spring with constant k and (2) a linear spring of constant k in parallel with a shock-absorbing unit generating a nearly constant force of 700 lb over 0.25 ft.
k = _____ x 10^4 lb/ft

Answers

k = 2.8 x 104 lb/ft. is a constant-length linear spring that is parallel to a 700 lb over force-generating shock absorber.

A velocities simple definition is what?

The main determinant of an object's position and rate of motion is its velocity. It can be explained as the distance an object travels in one unit of time. The dispersion of the objects in a given amount of time is referred to as velocity. Vector sum (v) squared is equal to the sum of the beginning velocity (u) squared and the acceleration (a) times the displacement times two (s). In order to find v, we solve for v such that final velocity (v) = numerator of speed (u) divided plus two times accelerated (a) twice displacement (s).

To calculate kinetic energy of the car KE = (1/2)mv^2

to convert the mass of the car he velocity from mph to ft/s (1 mph = 1.47 ft/s), we get :KE = (1/2)(3600/32.2)(4.0 x 1.47)^2

KE = 13325 ft-lb, the potential energy will be calculated as PE = (1/2)kx^2

since the displacement of the spring is unknown, we can express it in terms of k and solve for k using the given information

we know that constant force of 700 lb is generated over a displacement of 0.25 ft.W = Fd

W = 700 lb x 0.25 ft

W = 175 ft-lb

e can equate the two expressions for potential energy and solve for k:

(1/2)kx^2 = 175

For the bumper with the shock-absorbing unit, the displacement x is 0.25 ft, so we get:

1/2)k(0.25)^2 = 175

k = 280000 Ib/ft

Therefore, the value of k for the simple linear spring is k = 2.8 x 10^4 lb/ft.

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A fully charged parallel-plate capacitor remains connected to a battery while a dielectric is slid between the plates. Do the following quantities increase, decrease, or stay the same?
(a) C
---Select--- increases decreases stays the same
(b) Q
---Select--- increases decreases stays the same
(c) E between the plates
---Select--- increases decreases stays the same
(d) ?V
---Select--- increases decreases stays the same
(e) energy stored in the capacitor
---Select--- increases decreases stays the sam

Answers

When a dielectric material is inserted between the plates of a parallel-plate capacitor while it remains connected to a battery, the following quantities change:

What happens when a dielectric material is inserted?

(a) C: becomes bigger

C = A/d, where is the permittivity of the medium between the plates, A is the area of the plates, and d is the distance between the plates, gives the capacitance of the capacitor. A dielectric material placed between the plates raises the medium's permittivity, which in turn raises the capacitor's capacitance. As a result, the capacitance rises.

A: remains the same (b)

Because the battery maintains a constant potential difference between the plates and the charge on the plates is equal and opposite, the charge on the capacitor stays constant. The charges on the plates are redistributed when the dielectric material is added, but the overall charge on the plates does not change.

(c) E between the plates: decreases

The electric field between the plates is given by E = V/d, where V is the potential difference between the plates. When a dielectric material is inserted between the plates, it reduces the electric field between the plates, as the voltage across the plates remains constant while the distance between them increases. Therefore, the electric field between the plates decreases.

(d) ΔV: decreases

The potential difference between the plates decreases when a dielectric material is inserted between them. This can be explained by the relationship V = Q/C, where V is the potential difference, Q is the charge on the plates, and C is the capacitance. Since the capacitance increases when the dielectric is inserted, the potential difference decreases for the same charge on the plates. Therefore, ΔV decreases.

(e) Energy stored in the capacitor: increases

The energy stored in a capacitor is given by U = (1/2)CV², where C is the capacitance and V is the potential difference between the plates. When a dielectric material is inserted between the plates, the capacitance increases and the potential difference decreases. Since the energy stored is proportional to the square of the potential difference, the decrease in ΔV is more than compensated by the increase in capacitance, leading to an overall increase in the energy stored in the capacitor. Therefore, the energy stored in the capacitor increases.

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given the density of water is roughly 1mg/1l how could you verify whether you accurately pipette 950l of water into each tube

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To verify whether you accurately pipette 950l of water into each tube, measure the actual weight of water and compare it with calculated weight.

To verify if you accurately pipetted 950 mL of water into each tube, you can weigh each tube before and after adding the water. Since you know the density of water, you can calculate the expected weight of the water in each tube, which should be equal to 950 g or 0.95 kg.

By subtracting the weight of an empty tube from the weight of a tube filled with water, you can determine the actual weight of the water added to the tube. If the actual weight is close to 0.95 kg, then the pipetting was accurate.

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suppose that it had taken longer for the solar wind to clear away the solar nebula. which of the following consequences would have been most likely?

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Some ice-rich objects in the Kuiper belt (such as Pluto or Eris) would have grown to larger sizes these are consequences solar wind to clear away the solar nebula.

Eventually, 4 effects clear away the nebula: the Sun's radiation pressure, the solar wind, the gravitation of the individual planets, and close encounters between planets and planetessimals. METEORS, COMETS, ASTEROIDS are left as residues of the planet formation process. Theoretical models for the solar nebula indicate a decreasing temperature with increasing distance from the Sun.

Shock waves from the explosion compressed the cloud of gas and dust. Compression made the cloud collapse, as gravity pulled the gas and dust together, forming a solar nebula. Just like a dancer that spins faster as she pulls in her arms, the cloud began to spin as it collapsed

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Vegetable does not burn if we use while frying it, why? ​

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Vegetable oil does not burn if we use it while frying it because liquid oil itself does not burn. Rather, it is the vapor from oil that has reached its boiling and vapor point that ignites.

Why does vegetable oil not burn?

There are three things, for our purposes, to understand. The flash point, the fire point, and the ignition point. The ignition point is responsible for burning. To avoid oil burns, carefully and gently lower the food into the oil with your hands or tongs, and make sure that it drops away from you.

When oil starts to smoke it will impart a burnt, bitter flavor thanks to a substance released called acrolein. During this process, harmful compounds called polar compounds may also be released as a byproduct of the breakdown of that oil as it's exposed to heat.

Therefore, vegetable oil does not burn if we use it while frying it because liquid oil itself does not burn.

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A 1500kg car is skidding along a horizontal surface. If it is slowly brought to rest by the force of kinetic friction over a distance of 45 m (skidding to a stop), and if the coefficient of kinetic friction between the car and the road is 0.85, then what wa the initial speed of the car?

Answers

The initial speed of the car was approximately 24.9 m/s.

What is the initial speed of the car?

We can use the equation for the work done by kinetic friction to find the initial speed of the car. The work done by kinetic friction is given by:

W_friction = F_friction * d

where;

F_friction is the force of kinetic friction and d is the distance over which it acts.

The force of kinetic friction is given by:

F_friction = m * g * μ

where;

m is the mass of the car, g is the acceleration due to gravity (9.81 m/s^2), and μ is the coefficient of kinetic friction between the car and the road.

The work done by kinetic friction is equal to the change in kinetic energy of the car:

W_friction = (1/2) * m * v^2

where;

v is the initial speed of the car.

Setting these two equations equal to each other and solving for v, we get:

(1/2) * m * v^2 = F_friction * d

(1/2) * m * v^2 = m * g * μ * d

v^2 = 2 * g * μ * d

v = √(2 * g * μ * d)

Substituting the given values, we get:

v = √(2 * 9.81 m/s^2 * 0.85 * 45 m)

v = 24.9 m/s

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The mass is 18 kg. The velocity is 4.7 m/s. What is the kinetic energy?

Answers

Answer: the mass is18 kg

Explanation:

Answer:

Explanation:

Kinetic energy=1/2 *m *v^2

                      =1/2 * 18* 4.7*4.7=198.81J

With what speed must a ball be thrown vertically from ground level to rise to a maximum height of 50 m? How long will it be in the air? Sketch graphs of y, v, and a versus t for the ball?

Answers

The ball must be thrown with a initial speed of 31.30 m/s from the ground level to rise it to a maximum height of 50m and it will in the air for 6.38 seconds.

Given, we have the distance ball needs to travel = 50m and we know that the final velocity at the maximum height when thrown vertically will be 0. And the acceleration will be 9.8m/s²  which is acceleration due to Earth's gravity. Now, using the equations of motion we can find the initial velocity needed :

⇒ v² -  u²  = 2as where v stands for final velocity, u stands for initial velocity , s stands for the distance travelled and a stands for the acceleration. Therefore,

⇒ -u² = 2 x (-9.8m/s²) x 50m

⇒  u²= 980         (taking square roots on both sides of the equation)

⇒ u  = 31.30 m/s  

Now, we can easily find the duration for which the ball stays in the air using the equation v = u + at.

⇒ 0  = 31.30 + (-9.8)t     (solve the equation for t)

⇒ 31.30 = 9.8t

⇒31.30 / 9.8 = t

⇒t = 3.19 seconds

Now, this is the time required by the ball to reach the maximum height, the total time for which the ball stays in air will be twice of this because we also have to take account of the time required by the ball to reach to the ground from the maximum height which is equal to the time we calculated since this is a free fall situation.

Therefore, total time for which the ball stays in the air after throwing it with a speed of 31.30 m/s : 2 x 3.19 seconds. The graphs are attached below.

⇒  6.38 seconds

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Problem 3: A 0.072 F capacitor is being held at a potential difference of 333 V. 33% Part (a) what is the charge, in coulombs, on one of the plates? 02.40 10-11 Q = 2.4E-11 Correct! 33% Part (b) If you measure the size of each plate to be 29 cm2, how far apart are the plates, in micrometers? d-3.56 106 d 3.56E-6 X Attempts Remain Feedback: The answer provided was not correct. We have recognized the following ier va the number in he cormer unisoe 33% Part (c) What is the magnitude of the electric field inside this capacitor, in newtons per coulomb? Your answer appears to be off by a factor of 10n, where n is an integer value. Ensure you have represented the number in the correct units. Grade Summary Deductions 100% 0%

Answers

The magnitude of the electric field inside the capacitor is: E = 93.53 x 10^3 N/C (or 93.53 kN/C)

Describe Electric Field?

An electric field is a physical quantity that describes the influence that an electric charge exerts on other charges within the space around it. It is defined as the force per unit charge that a test charge would experience at a given point in space, in the presence of an electric charge or charges.

Electric fields are typically represented by vectors, which have both magnitude and direction. The strength of an electric field is measured in units of volts per meter (V/m).

Electric fields are fundamental to understanding the behavior of electrical systems, including electronic circuits and power grids. They also play a critical role in the functioning of many natural phenomena, such as lightning, the aurora borealis, and the behavior of atoms and molecules.

Part (a) To find the charge on one of the plates, we can use the formula:

Q = C x V

where Q is the charge, C is the capacitance, and V is the potential difference.

Substituting the given values, we get:

Q = 0.072 F x 333 V = 23.976 C ≈ 2.4 x 10^-11 C

Therefore, the charge on one of the plates is approximately 2.4 x 10^-11 coulombs.

Part (b) To find the distance between the plates, we can use the formula:

C = ε0 x (A/d)

where ε0 is the permittivity of free space, A is the area of each plate, and d is the distance between the plates.

Solving for d, we get:

d = ε0 x A / C

Substituting the given values, we get:

d = (8.85 x 10^-12 F/m) x (0.29 m)^2 / 0.072 F = 3.56 x 10^-6 m = 3.56 micrometers (μm)

Therefore, the distance between the plates is approximately 3.56 μm.

Part (c) The electric field inside the capacitor can be calculated using the formula:

E = V/d

where V is the potential difference and d is the distance between the plates.

Substituting the given values, we get:

E = 333 V / (3.56 x 10^-6 m) = 93.53 x 10^3 V/m

However, the question asks for the magnitude of the electric field in newtons per coulomb. To convert from volts per meter to newtons per coulomb, we can use the formula:

1 V/m = 1 N/C

Therefore, the magnitude of the electric field inside the capacitor is:

E = 93.53 x 10^3 N/C (or 93.53 kN/C)

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consider a wet banked racetrack, where there is a coefficient of static friction of 0.34 and a coefficient of kinetic friction of 0.29 between the tires and the surface of the racetrack. the radius of the curve is 56.0m .

Answers

The maximum speed at that a car can travel around the curve without slipping is 13.7 m/s.

In this situation, the coefficient of static friction (μs) is 0.34 and the coefficient of kinetic friction (μk) is 0.29. The radius of the curve (r) is 56.0m.

We can use these values to calculate the maximum speed that a car can travel around the curve without slipping. This is determined by the centripetal force (Fc) required to keep the car on the curve and the frictional force (Ff) that keeps the car from sliding off the curve.

The equation for centripetal force is

Fc = mv^2/r,

where m is the mass of the car and v is the speed of the car.

The equation for frictional force is

Ff = μsFn,

where Fn is the normal force.

Since the car is on a level surface,

Fn = mg,

where g is the acceleration due to gravity.

Setting Fc equal to Ff and solving for v gives us the maximum speed that the car can travel around the curve without slipping:

mv^2/r = μsmg v^2

=> μsrg v

=> √(μsrg) v

=> √(0.34 * 56.0m * 9.8m/s^2) v

=> 13.7 m/s

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write a live script yourlastname a3 hw.mlx to calculate parameters of trajectory of a projectile launched from a transport airplane. the launch altitude is 9 km above sea level. the projectile reached a maximum altitude of 40 km. it then descended to sea level and crashed into the water. specifically, calculate and print the following parameters:

Answers

The maximum altitude is 40km . The range of projectile is 3398.28 m and the displacement is 2575.12 m.

(a) Angle θ = 30°

altitude=40 km

Time = t = 20 s

Time of flight of a projectile is given by the expression,

  t = (2usinθ/g)

  20 = (2 X usin30 / 9.81)

  u = 196.2 m/s

(b) Maximum altitude is given by H =

  H = u²sin²θ / 2g

  H = 196.2² X sin² 30 / 2 X 9.81

  H = 490.6 m

(c)  Range of projectile is given by = R =

  R = u²sin2θ / g

  R = 196.2² X sin 2 X 30 / 9.81

  R = 3398.28 m

(d) Horizontal velocity = ucosθ = 196.2 x cos 30 = 169.91 m/s

Vertical velocity = usinθ = 196.2 x sin 30 = 98.1 m/s

We have equation of motion s = ut + 0.5 at²

Horizontal motion;

u = 9.81 m/s

a = 0

t = 15 s

Substituting,

= s = 169.91 x 15 + 0.5 x 0 x 15² = 2548.71 m

Vertical Motion;

= s =  98.1 x 15 + 0.5 x -9.81 x 15² = 367.88 m

Total displacement = √ ( 2548.71² + 367.88²) = 2575.12 m

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conventionally, the field strength around a charged object is the direction of the force acting on a choose... .

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Conventionally, the field strength around a charged object is the direction of the force acting on a "positive test charge".

This convention is used because positive charges and negative charges experience opposite forces in an electric field, so the direction of the field is defined based on the force experienced by a positive charge. By convention, a positive test charge is used to define the direction of the field, even though in reality the direction and magnitude of the field would be the same for a negative test charge. This convention helps to avoid confusion and ensure consistent understanding of the direction and properties of electric fields.

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the coriolis force on earth is caused by _____ . weights of objects on earth earth's revolution around the sun earth's rotation rotation of objects in the atmosphere rotation in the northern hemisphere question content areato an observer on a platform spinning counterclockwise, an object will ______ when thrown. appear to move to the left appear to move to the right appear to travel in a straight line move to the right move to the left

Answers

The earth's rotation generates the coriolis force, which makes objects hurled farther have more buoyant force.

What causes the Coriolis force?

The velocity Centripetal force is an outward force brought on by the rotation of the earth. In the northern hemisphere, the Coriolis force causes winds to be deflected to the right, and in the southern hemisphere, to the left. It is often referred to as "Ferrel's Law." When the wind speed is high, the deflection is greater.

why is the Coriolis force is absent ?

The Coriolis force is most noticeable in the longitudinal course of an object. On Earth, an object traveling in a north-south direction will appear to be deflected to the north of the Equator and to left with in Southern Hemisphere.

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if 3 circular bars made up of glass, steel, aluminium having equal cross section applied with muiltiaxial load at same point in same direction , which bar will produce more stress

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If 3 circular bars made up of glass, steel, aluminium having equal cross section applied with muiltiaxial load at same point in same direction , The bar will produce more stress: glass

If 3 circular bars made up of glass, steel, aluminium having equal cross section applied with muiltiaxial load at same point in same direction, the bar made of glass will produce more stress.

This is because the modulus of elasticity of glass is lower than that of steel and aluminium. The modulus of elasticity is a measure of a material's resistance to deformation under load. A lower modulus of elasticity means that the material is more prone to deformation and therefore, will produce more stress under the same load.

In general, the stress produced in a material under load is given by the equation:

stress = load / cross-sectional area

Since the cross-sectional area of the bars is equal and the load applied is the same, the stress produced will depend on the modulus of elasticity of the material. Therefore, the bar made of glass will produce more stress under the same load as compared to the bars made of steel and aluminium.

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The steel bar will produce the most stress when applied with a multi-axial load at the same point in the same direction, as steel is the strongest of the three materials (glass, steel, and aluminium).


The bar made of steel will produce more stress under a multi-axial load at the same point in the same direction. This is because steel has a higher Young's modulus, or the measure of the ability of a material to withstand changes in length when under tension or compression, than glass or aluminum. Therefore, it will experience greater stress under the same loading conditions. Steel has a much higher Young's modulus than glass or aluminum, meaning it will experience greater stress under the same loading conditions.

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Replace the incandescent bulb with the Voltage meter and return loop # to 3. What happens when you move the bar magnet back-n-forth through the loop? Does this appear to be creating a Direct Current or an Alternating Current? How do you know?

Answers

If we replace the incandescent bulb with a voltage meter and return the loop to its original configuration, then moving the bar magnet back and forth through the loop will induce an electrical current in the loop, as described by Faraday's law of electromagnetic induction.

What is magnet?

A magnet is a material or object that produces a magnetic field, which is a force that can attract or repel certain other materials, such as iron or steel. The magnetic field is created by the motion of electric charges within the magnet, which align in such a way that they produce a net magnetic field. Magnets can be made from a variety of materials, including iron, cobalt, nickel, and certain alloys. They come in many different shapes and sizes, including bars, discs, horseshoes, and rings.

Here,

The type of current that is generated depends on the direction and rate of the magnet's motion. If the magnet is moved back and forth with a constant speed and in a straight line, the current induced in the loop will be an alternating current (AC), because the direction of the current will reverse every time the magnet changes direction. This can be observed by the voltage meter reading a voltage that periodically changes in direction.

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climbing ropes stretch when they catch a falling climber, thus increasing the time it takes the climber to come to rest and reducing the force on the climber. in one standardized test of ropes, an 80 kg mass falls 4.8 m before being caught by a 2.5-m -long rope.

Answers

The force on the force sensor can be calculated as 2.25 kg x 9.8 m/s² = 22.05 kg If the ramp angle is 90 degrees and the cart mass is 2.25 kg,

Then the force on the force sensor can be predicted using a simple equation. The force on the force sensor is equal to the mass of the cart multiplied by the acceleration due to gravity, which is 9.8 m/s². Therefore, the force on the force sensor can be calculated as 2.25 kg x 9.8 m/s² = 22.05 kg. This means that the force on the force sensor when the ramp angle is 90 degrees and the cart mass is 2.25 kg will be 22.05 kg. This calculation is based on the assumption that there is no friction or other external force acting on the cart. If there are other external forces such as friction, then the force on the force sensor may change.

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consider a situation where a stationary object is subject to two force vectors, both trying to push it in different directions. adding these two vectors together gives you the resultant force vector (the total force vector acting on the object). if you wanted to place the object in equilibrium (where the total force vector is zero, and the object remains stationary) you would need to add a third force vector to also act on the object. call this third vector the equilibrium force vector.The equilibrium force vector is ______ in magnitude and ______ in direction to the resultant vector

Answers

The equilibrium force vector would need to be equal in magnitude and opposite in direction to the resultant force vector.

What is Equilibrium Force Vector?

The equilibrium force vector is a third force vector that is added to a system in order to place it in a state of equilibrium. Equilibrium means that the net force acting on the system is zero, so the system remains at rest or moves with a constant velocity.

In general, the concept of an equilibrium force vector can be applied to any system that is subject to multiple forces or other influences, and the equilibrium force vector is the force that is needed to balance out those forces or influences and maintain a state of equilibrium. However, the concept of equilibrium and the equilibrium force vector remain useful for understanding and analysing the forces and dynamics of a system.

In the context of a stationary object subject to two force vectors, the equilibrium force vector is the force that is needed to balance out the other two forces so that the net force on the object is zero, and the object remains stationary in equilibrium. The magnitude and direction of the equilibrium force vector must be carefully calculated to ensure that it cancels out the net force on the object.

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what is the peak wavelength of light coming from a star with a temperature of 5300 k? (submit your answer in nanometers. remember 1 nm

Answers

The peak wavelength of light coming from a star with a temperature of 5300 K is 550 nm.

The peak wavelength of light coming from a star with a temperature of 5300 K can be calculated using Wien's law. According to Wien's law, the peak wavelength of a blackbody is inversely proportional to its temperature. The peak wavelength of a blackbody with a temperature of 5300 K can be calculated using the equation: λpeak = 0.0029/T, where T is the temperature in K. Plugging in the temperature of 5300 K into the equation results in a peak wavelength of 0.00055 μm or 550 nm. Therefore, the peak wavelength of light coming from a star with a temperature of 5300 K is 550 nm.

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The peak wavelength coming out of a star which has a temperature of 5300 K is 547 if 1 nm=  10-9 m

Peak wavelength is the one wavelength at which the light source's radiometric emission spectrum is at its broadest. Simply put, it represents photo-detectors rather than the human eye's perception of any emission from the light source.

To calculate a peak wavelength, we have to divide Wien's displacement constant by the absolute temperature

The Wien's displacement law, which states that the absolute temperature of a black body is inversely proportional to the electromagnetic wavelength at its maximal radiation intensity, is the law for which Wien's constant is well known.

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A 10kg bowling ball is moving at 10 m/s when it strikes a 3.0kg bowling pin at rest after the collision tge pin moves foward at 12m/s what is the speed of the bowling ball aftdd the collision

Answers

The speed of the bowling ball after the collision is 4 m/s.

What is momentum?

The momentum is defined as the product of the mass and the velocity of the body.

We can use the law of conservation of momentum to solve this problem, which states that the total momentum of a system remains constant in the absence of external forces. The initial momentum of the system (bowling ball + bowling pin) is:

pi= m₁v₁ + m₂ v₂

= 10 kg x 10 m/s + 3 kg x 0 m/s

= 100 kg m/s

where m₁ is the mass of the bowling ball, v₁l is its velocity before the collision, m₂ is the mass of the bowling pin, and v'₂ is its velocity before the collision (which is zero since it's at rest).

After the collision, the momentum of the system is:

pf = m₁v'₁ + m₂  v'₂

Where v'₁  is the velocity of the bowling ball after the collision, and v'₂ is the velocity of the bowling pin after the collision.

Since momentum is conserved, we have:

pi= pf

Substituting the values we know, we get:

100 kg m/s = 10 kg x  v'₁ + 3 kg x 12 m/s

Solving for v'₁, we get:

v'₁ = (100 kg m/s - 3 kg * 12 m/s) / 10 kg

v'₁ = 4 m/s

Therefore, the speed of the bowling ball after the collision is 4 m/s.

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A child attempts to use a wrench to remove a nut on a bicycle. Removing the nut requires a torque of 10 N·m. The maximum force the child is capable of exerting at a 90°angle is 50 N. What is the length of the wrench the child must use to remove the nut?

Answers

The child must use a wrench that is at least 20 centimeters long to remove the nut with the maximum force they can exert.

The torque exerted by the child must be equal to or greater than the required torque of 10 N·m to remove the nut. The formula for torque is torque = force x length x sin(theta), where theta is the angle between the force and the wrench.

Rearranging the formula, we can find the required length of the wrench by dividing the required torque by the force and the sin of the angle.

Length = Torque / (Force x sin(theta))

Using the given values, we get:

Length = 10 N·m / (50 N x sin(90°))

sin(90°) = 1

Length = 0.2 meters or 20 centimeters

Therefore, the child must use a wrench that is at least 20 centimeters long to remove the nut with the maximum force it can exert.

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You throw a 5.0 kg stone from the top of a cliff with an initial vertical velocity of 8.0 m/s downward and an initial horizontal velocity of 7.0 m/s away from the cliff, and it feels no air resistance. After the stone is in the air but free of your hand, its acceleration remains constant at 9.8 m/s^2 downward but its speed changes.
True
False

Answers

Throwing a 5kg stone with an initial vertical velocity of 8.0 m/s downward and an initial horizontal velocity of 7.0 m/s away from the cliff, without any air resistance. After the stone is in the air, its acceleration remains constant at 9.8 m/s² downward but its speed changes. The statement is true.

Once the stone is released from your hand, it will experience a constant acceleration of 9.8 m/s² downward due to the force of gravity. This means that its speed will change over time as it falls.

In the vertical direction, its speed will increase at a rate of 9.8 m/s², so it will be moving faster and faster as it falls. In the horizontal direction, the stone will continue to move with a constant velocity of 7.0 m/s, as there is no force acting in that direction to change its speed.

The motion of the stone can be analyzed using kinematic equations, which describe the relationships between distance, time, acceleration, and velocity. The equations for motion in one dimension (vertical) are:

d = vit + (1/2)at²

vf = vi + at

where d is the distance traveled, vi and vf are the initial and final velocities, a is the acceleration, and t is time. Using these equations, you can calculate the stone's speed and distance fallen at any point in time.

In summary, the stone will experience a constant acceleration of 9.8 m/s² downward due to gravity once it is released from your hand, and its speed will change over time as it falls.

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a rod of length 2a with total charge q uniformly distributed along its length is placed along the z axis with its center at the origin. find the electric field everywhere.

Answers

The electric field due to a charged rod of length 2a with total charge q uniformly distributed along its length, placed along the z axis with its center at the origin.

To find the electric field everywhere due to the charged rod, we can use Coulomb's law and the principle of superposition. The electric field due to a small segment of the rod at a point P in space is given by:

dE = k dq / r^2

where k is Coulomb's constant, dq is the charge on the segment, r is the distance from the segment to the point P, and dE is the electric field due to the segment. To find the total electric field at P, we integrate this expression over the entire length of the rod, from -a to +a, as follows:

E = ∫ dE = k ∫ dq / r^2

where the integral is taken over the length of the rod. We can express dq in terms of the charge density λ, which is the charge per unit length of the rod, as dq = λ ds, where ds is an infinitesimal length element along the rod. We can also express r in terms of the distance s from the origin to the segment, as r = √(s^2 + z^2), where z is the distance from the segment to the z axis.

Substituting these expressions into the integral, we obtain:

E = k ∫ dq / r^2 = k ∫ λ ds / (s^2 + z^2)

To evaluate this integral, we use a trigonometric substitution, letting s = z tan θ. Then, ds = z sec^2 θ dθ, and the limits of integration become -arctan(a/z) and arctan(a/z). Substituting these expressions into the integral, we obtain:

E = k λ z ∫_{-arctan(a/z)}^{arctan(a/z)} dθ / (1 + (a/z)^2 tan^2 θ)

This integral can be evaluated using the substitution u = tan θ, which gives:

E = k λ z / (2πε_0) ∫_{-a/z}^{a/z} du / (1 + u^2)

where ε_0 is the permittivity of free space. This integral can be evaluated using the inverse tangent function, giving:

E = k λ z / (2πε_0) [arctan(a/z) - arctan(-a/z)]

Simplifying this expression using the identity arctan(-x) = -arctan(x), we obtain:

E = k λ a / (2πε_0 z√(a^2 + z^2))

This is the expression for the electric field due to a charged rod of length 2a with total charge q uniformly distributed along its length, placed along the z axis with its center at the origin. The electric field points radially away from the rod, and its magnitude decreases as 1/r^2 with distance from the rod

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The electric field strength between the plates of a simple air capacitor is equal to the voltage across the plates divided by the distance between them. When a voltage of 89.6 V is put across the plates of such a capacitor an electric field strength of 1.8kV/cm
is measured.
Write an equation that will let you calculate the distance d between the plates. Your equation should contain only symbols.

Answers

The equation to calculate the distance between the plates of a capacitor can be derived from the given information:

Electric field strength (E) = Voltage (V) / Distance between plates (d)

Given that the electric field strength is 1.8 kV/cm and the voltage is 89.6 V, we can substitute these values in the equation:

[tex]1.8 kV/cm = 89.6 V / d[/tex]

To solve for the distance d, we can rearrange the equation:

[tex]d = 89.6 V / (1.8 kV/cm)[/tex]

Here, the voltage is expressed in volts and the distance is expressed in centimeters. This equation can be used to calculate the distance between the plates of the capacitor, given the voltage and the electric field strength.

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What is the missing part (yellow box) in each of these nuclear equations? Hint: Use the Periodic Table. The
answer will be a number or the symbol of an element. (6 pts)
A.
B.
C.
D.
40K →
19
e +
234
238 U → He +90
92
40
20
237 U₁e +3Np
92
93
4
230Th →→He+ Ra
90
88
35
35Sie + ³5 p
Answer:
Answer:
Answer:
Answer:
Answer:

Answers

Calcium is released from the breakdown of potassium ion. Thorium atom is released from the degradation of Uranium atom through alpha decay. The beta decay of Uranium form Neptunium. Radium is released from the alpha decay of thorium and P(15) is released from the beta decay of Silicon atom.

What are alpha and beta decay?

Alpha decay is a common mode of radioactive decay in which a radioactive nucleus emits an alpha particle such as a helium-4 nucleus.

Beta decay is a common mode of radioactive decay in which the nucleus emits beta particles. The daughter nucleus in this decay will have a higher atomic number than the original nucleus.

Calcium is released from the breakdown of potassium ion. Thorium atom is released from the degradation of Uranium atom through alpha decay. The beta decay of Uranium form Neptunium. Radium is released from the alpha decay of thorium and Phosphorus(15) is released from the beta decay of Silicon atom.

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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 present value of an ordinary annuity?
PMT x {1 - [1 / (1+r)n1+rn]} / r

Answers

The term "ordinary annuity" refers to the assumption made by the equation that payments are paid at the conclusion of each month.

The present value of an ordinary annuity may be calculated using the equation you've given.

PMT x 1 - [1 / (1+r)]n]r

In this case, PMT stands for the regular payment made at the end of each period, r for the interest rate per period, and n for the overall number of periods.

The present value of the annuity, which is the total present value of all the future payments, is determined by the numerator of the equation.

To account for the time value of money, the denominator of the equation determines the present value of one dollar.

The term "ordinary annuity" refers to the assumption made by the equation that payments will be made at the conclusion of each period.

The equation would have to be modified if the payments were made at the start of each period.

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According to Kirchhoff’s voltage law, the algebraic sum of the voltage around a closed loop in a circuit must be:
Zero
Negative
Unknown
Positive

Answers

According to Kirchhoff’s voltage law, the algebraic sum of the voltage around a closed loop in a circuit must be zero which is therefore denoted as option A.

What is Voltage?

This is also known as electric pressure, electric tension, or potential difference, and it is referred to as the difference in electric potential between two points.

Kirchhoff's Voltage Law states that the voltage around a loop equals the sum of every voltage drop in the same loop for any closed network and equals zero as a result of the absence of breaks.

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Calculate the value of thc Gibbs Free Energy at 298 K for the conversion of A to B if the enthalpy of the reaction Is and the change in entropy is -26.8 J K^-1 mol^-1

Answers

The Gibbs Free Energy (ΔG) at 298 K for the conversion of A to B can be calculated using the equation ΔG = ΔH - TΔS.

Here, ΔH is the enthalpy of the reaction and ΔS is the change in entropy. Therefore, the Gibbs Free Energy for the conversion of A to B at 298 K is given by: ΔG = ΔH - (298 K)(-26.8 J K^-1 mol^-1)

Therefore, the value of the Gibbs Free Energy for the conversion of A to B at 298 K is equal to 7.54 kJ mol^-1. This value indicates that the conversion of A to B is thermodynamically favourable at 298 K, since the Gibbs Free Energy is negative.

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The Gibbs free energy is a thermodynamic potential in thermodynamics that can be used to determine the maximum amount of non-volume expansion work that a thermodynamically closed system is capable of performing at constant temperature and pressure.

The formula  ΔG =  ΔH - T ΔS can be used to determine the Gibbs Free Energy ( ΔG) at 298 K for the conversion of A to B.

Here, ΔH represents the reaction's enthalpy and ΔS represents the entropy change.

Therefore, 7.54 kJ mol^-1 is the value of the Gibbs Free Energy for the conversion of A to B at 298 K. Given that the Gibbs Free Energy is negative, this number shows that the conversion of A to B is thermodynamically advantageous at 298 K.

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