why does a heating element get hot upon passing current through it? ...?
A waterwheel is an example of: wave energy tidal energy wind energy hydro energy
Answer:
Hydro energy
Explanation:
Answer:
hydro energy would be the answer.
Explanation:
A package of supplies is to be dropped from an airplane so that it hits the ground at a designated spot near some campers. The airplane, moving horizontally at a constant velocity of 140 km/hr, approaches the spot at an altitude of 0.5 km above level ground. Having the designated point in sight, the pilot prepares to drop the package. How far horizontally from the drop point should the pilot release the package? What is the location of the plane when the package hits the ground?
Answer:
392.8 m
Explanation:
Horizontal velocity is 38.89 m/s
Vertical distance y =0.5 km = 500 m
First calculate the time in which the package will hit the ground.
Use the second equation of motion
[tex]y = u t + 0.5 at^2[/tex]
[tex]500 = 0 + 0.5 (9.8) t^2[/tex]
t =10.1 s
Horizontal distance covered in the same time is
x = ut = (38.89) (10.1) = 392.8 m
The plane will cover the same horizontal distance in the time in which the package hits the ground.
What is a vector in Science?
In physics, a vector is a quantity that has both magnitude and direction. It can be represented by an arrow and is used to describe physical quantities such as displacement, velocity, force, and electric and magnetic fields.
Explanation:In physics, a vector is a quantity that has both magnitude and direction. It can be represented by an arrow, where the length of the arrow represents the magnitude and the direction of the arrow represents the direction. Vectors are used to describe physical quantities such as displacement, velocity, force, and electric and magnetic fields.
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A mover uses a ramp to push a stereo into the van. The ramp is 3 meters long and 1.5 meters high. What is the ideal mechanical advantage of this ramp?
describe how Archimedes pronciple applies to buoyancy
The formula K2S indicates that
To describe velocity, you need to know ____. (1 point)
speed and direction
speed and time
direction and acceleration
speed and acceleration
To describe velocity, you need to know speed and direction. Option (a) is correct.
You need to understand direction and speed in order to define velocity. The magnitude (speed) and direction of an object's motion are both included in the vector variable known as velocity. An object's speed is represented by the speed component and its direction by the direction component. Therefore, both speed and direction must be taken into account in order to adequately represent velocity.
Speed (how quickly an object is traveling) and direction (the path it is taking) are two essential components of velocity. These two elements work together to provide a precise description of an object's velocity.
Hence, To describe velocity, you need to know speed and direction. Option (a) is correct.
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Why do plant cells need these two (2) organelles while animal cells do not?
A sky diver jumps from a reasonable height above the ground. The air resistance she experiences is proportional to her velocity, and the constant of proportionality is k = 0.19. It can be shown that the downward velocity of the sky diver at time t is given by v(t) = A(1 − e^-kt) where t is measured in seconds and v(t) is measured in feet per second (ft/s). Suppose A = 64.
(a) Find the initial velocity of the sky diver.
(b) Find the velocity after 5 s and after 15 s. (Round your answers to one decimal place.) ...?
The initial velocity of the skydiver is 0 ft/s. After 5 seconds, the velocity is approximately 34.5 ft/s. After 15 seconds, the velocity is approximately 60.2 ft/s.
Explanation:(a) To find the initial velocity of the skydiver, we need to evaluate v(t) at t = 0. Substitute t = 0 into the equation v(t) = A(1 − e^-kt) . Plugging in A = 64 and k = 0.19, we get v(0) = 64(1 - e^0) = 64(1 - 1) = 0 ft/s.
(b) To find the velocity after 5 seconds, substitute t = 5 into the equation. v(5) = 64(1 - e^(-0.19 * 5)) = 64(1 - e^(-0.95)) ≈ 34.5 ft/s .
To find the velocity after 15 seconds, substitute t = 15 into the equation. v(15) = 64(1 - e^(-0.19 * 15)) = 64(1 - e^(-2.85)) ≈ 60.2 ft/s .
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The initial velocity of the skydiver is 0 ft/s. After 5 seconds, the velocity is approximately 39.2 ft/s, and after 15 seconds, it is approximately 60.3 ft/s.
Let's solve the problem about the skydiver's velocity over time. The velocity function given is [tex]v(t) = A(1 - e^{-kt})[/tex] where A = 64 ft/s and k = 0.19 s⁻¹.
(a) Initial Velocity
The initial velocity of the skydiver occurs at t = 0. Plugging t = 0 into the velocity equation:
[tex]v(0) = 64(1 - e^{-0.19*0})[/tex]
Since e0 = 1:
v(0) = 64(1 − 1) = 0 ft/s
Therefore, the initial velocity of the skydiver is 0 ft/s.
(b) Velocity after 5 s and 15 s
Let's find the velocity after 5 seconds (t = 5):
[tex]v(5) = 64(1 - e^{-0.19*5})[/tex]
Calculating the exponent:
e-0.95 ≈ 0.387
So:
v(5) = 64(1 − 0.387) = 64(0.613) ≈ 39.2 ft/s
Now, let's find the velocity after 15 seconds (t = 15):
[tex]v(15) = 64(1 - e^{-0.19*15})[/tex]
Calculating the exponent:
e-2.85 ≈ 0.058
So:
v(15) = 64(1 − 0.058) = 64(0.942) ≈ 60.3 ft/s
Therefore, the velocities after 5 and 15 seconds are approximately 39.2 ft/s and 60.3 ft/s, respectively.
Estimate the blood's acceleration during speeding up phase of the motion.
We cannot estimate the blood's acceleration during the speeding up phase without knowing the time taken.
Explanation:The student wants to estimate the blood's acceleration during the speeding up phase of its motion. To solve this, we can use the equation for acceleration:
a = (v - u) / t
where a is the acceleration, v is the final velocity, u is the initial velocity, and t is the time taken. In this case, the blood is accelerated from rest (0 cm/s) to 30.0 cm/s in a distance of 1.80 cm. To calculate the time (t), we can rearrange the equation to:
t = (v - u) / a
Substituting the values, we have:
t = (30.0 cm/s - 0 cm/s) / a
To find a, we need to know the value of t. Unfortunately, the value of t is not given in the question, so we cannot determine the blood's acceleration during the speeding up phase without knowing the time taken. Therefore, we cannot provide an estimate for the blood's acceleration in this case.
A sled is pushed along an ice covered lake. It has some initial velocity before coming to rest in 15m. It took 23 seconds before the sled and rider came to a rest. If the rider and sled have a combined mass of 52.5 kg, what is the magnitude and direction of the stopping force? What do we call the stopping force?
A sled is pushed along an ice-covered lake. It has some initial velocity before coming to rest in 15m. It took 23 seconds before the sled and rider came to a rest. If the rider and sled have a combined mass of 52.5 kg, the magnitude, and direction of the force - 2.98 N which is called friction.
Given:
Time t = 15 s
distance d = 23 m
mass = 52.5
As we know the formula,
[tex]Solution:\\\\\\bar v = \frac{d}{t}\\\\ = \frac{15}{23}\\ \\ = 0.65 \ m/s\\\\According\ to\ the\ question,\\v_f =0\\then,\\2 \bar v = v_i\\2(0.65)=v_i\\v_i=1.3 \ m/s\\u = Initial\ velocity,\\v = Final\ Velocity,\\a = acceleration\\\\According\ to\ the\ second\ law\ of\ motion\\Force = m\times a\\ = (-.057)\times 52.5\\ = -2.97 \ N[/tex]
Thus, F is taken to be negative. So, the stopping force is -2.97 N and this force is the frictional force and its direction is opposite to that of motion.
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Divide 40 kg mass into 4 piece such that you can weigh from 1 to 40 kg from those 4 masses ...?
Which atom in a water molecule has the greatest electronegativity??
In a water molecule, oxygen has the greatest electronegativity, leading to the polar nature of water and its ability to form hydrogen bonds.
Explanation:Because oxygen has an electronegativity of 3.44 compared to hydrogen's 2.20, it attracts the shared electrons in the molecule more strongly than the hydrogen atoms do. Consequently, the shared electrons spend more time near the oxygen atom, resulting in a higher electron density around it and making the oxygen end of the water molecule slightly negative. This imbalance in electron density is significant, as it contributes to the molecular polarity of water, where hydrogen atoms acquire a partial positive charge and oxygen atoms a partial negative charge. The high electronegativity of oxygen relative to hydrogen in water molecules leads to its well-known polar properties and its ability to form hydrogen bonds.
what type of energy best represents the strength of an ionic bond? ...?
The strength of an ionic bond is best represented by lattice energy, which measures the energy required to separate one mole of a compound into gas phase ions. Factors that affect lattice energy include the magnitude of ionic charges and the size of the ions. Higher lattice energy indicates stronger ionic bonds.
Explanation:The type of energy that best represents the strength of an ionic bond is known as lattice energy. Lattice energy is the energy required to separate one mole of a compound into its gas phase ions. This energy measurement is crucial because it reflects the strength of the electrostatic attraction between the ions in an ionic compound. The stronger this attraction, the greater the lattice energy, indicating a stronger ionic bond. Factors influencing lattice energy include the magnitude of the ionic charges and the size of the ions; higher charges and smaller ion sizes contribute to stronger ionic bonds due to closer ion proximity and stronger electrostatic forces.
Lattice energies are often calculated using the Born-Haber cycle, a process that accounts for all energetic steps in converting elements into an ionic compound. Higher lattice energy corresponds to stronger ionic bonds, which directly impacts the compound's physical properties, such as its melting point. For instance, a compound with high lattice energy will have a high melting point, affirming the strong ionic bonds holding the compound together.
What effect would increasing the number of loops in a coil of wire have on an electromagnet?
If the number of loops in a coil of wire is increased on an electromagnet, the magnetic field strength of the coil will increase.
What is electromagnet?An electromagnet is a type of magnet that generates a magnetic field by using an electric current. Electromagnets are typically made of wire twisted into a coil. A current flowing through the wire produces a magnetic field that is concentrated in the coil's central hole.
When the current is switched off, the magnetic field vanishes. The wire turns are frequently wound around a magnetic core consisting of a ferromagnetic or ferrimagnetic material, such as iron; the magnetic core concentrates the magnetic flux, resulting in a stronger magnet.
As the current grows, so does the strength of the magnetic field. The coil's number of turns grows. An iron core creates a powerful electromagnet that is easily magnetized and demagnetized.
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A box is given a push so that it slides across the floor. How far will it go, given that the coefficient of kinetic friction is 0.15 and the push imparts an initial speed of 3.5m/s?
The box will travel 4.17 meters with a given coefficient of kinetic friction of 0.15 and with an initial speed of 3.5 m/s.
What is Kinetic friction?It is known as a force that acts between moving surfaces as kinetic friction. A force acting in the opposite direction of the movement of a body on the surface is felt. The coefficient of kinetic friction between the two materials will determine the size of the force.
It is simple to define friction as the force stopping a sliding item. Everything has kinetic friction, which impedes the motion of two or more objects. When an object desires to slide in one direction, the force acts in the opposing direction.
According to the question, the given values are :
Coefficient of kinetic friction, [tex]\mu[/tex] = 0.15
Initial speed, V(i) = 3.5 m/s
Final speed, V(f) = 0 m/s
F = ma and,
[tex]F_r[/tex] = ma
[tex]\mu F_r[/tex] = ma
[tex]\mu[/tex]g = a
a = 0.15 / 9.8
a = 1.47 m/s².
V²(f) = V²(i) + 2ad
d = [V²(f)- V²(i)] / 2a
d = 0 -(3.5)² / 2(-1.47)
d = 4.17 m
Hence, the box with travel 4.17 meters.
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What determines whether or not work is being done?
A. In order for work to be done force increase.
B. In order for work to be done the distance must increase.
C. In order for work to be done a force must be transferred and the object must move.
D. In order for work to be done an object must not move.
C is the correct answer but the best possible answer is that work is done when a force is imposed on an object and the object moves in the same direction as the force
Hope this helps!
Work in physics is done when a force is applied and causes displacement in the direction of the force. The correct answer is that for work to be done, a force must be transferred and the object must move.
In physics, work is defined as the transfer of energy to an object by applying a force that causes the object to move.
The correct answer to what determines whether work is being done is C: In order for work to be done a force must be transferred and the object must move.
For work, in the scientific sense, to occur, a force must be exerted and there must be displacement in the direction of the force.
Formally, the work done is the product of the component of the force in the direction of the displacement and the distance through which the force acts, which is articulated in the equation W = | F | (cosθ) | d |, where W is work, F is the magnitude of the force, cosθ is the cosine of the angle between the force vector and the displacement vector, and d is the displacement.
Which of the following describes electric current?
A. Electric current is the flow of protons
B. Electric current is the flow of neutrons
C. Electric current is the flow of a charge
D. Electric current is the flow or protons and neutrons
Answer:
Electric current is the flow of a charge
Explanation:
Electric current is defined as the flow of electric charges. Mathematically, it is given by :
[tex]I=\dfrac{q}{t}[/tex]
Where
q = electric charge
t = time interval
The SI unit of electric current is ampere. It is denoted by letter A. According to Ohm's law, electric current can be given by voltage divided by resistance of the circuit. Hence, the correct option is (c) " Electric current is the flow of a charge ".
1. Which of the following types of magnets would not be considered a permanent magnet?
alnico magnet
neodymium iron boron magnet
iron magnet
lodestone
7. Magnetism is believed to be caused by the alignment of small, numerous sub-units called _____.
poles
fields
ions
domains
8.Magnetism is believed to be caused by the alignment of small, numerous sub-units called _____.
poles
fields
ions
domains
Correct answer choice for question 1 is :
C) Iron magnet
Explanation:
Materials which will be magnetic , that are also those that are powerfully drawn to a magnet, as known as magnetism. These embrace iron, nickel, cobalt, some alloys of rare-earth metals, and a few present minerals like static magnet. Magnets attract iron thanks to the influence of their magnetic flux upon the iron. once exposed to the magnetic flux, the atoms begin to align their electrons with the flow of the magnetic flux, that makes the iron magnetic likewise. This, in turn, creates an attraction between the 2 magnetic objects.
____________________________________________________________
Correct answer choice for question 7 is :
D) Domains
Explanation:
Magnetism could be a category of physical phenomena that are mediate by magnetic fields. Electrical currents and therefore the magnetic moments of elementary particles bring about to a magnetic flux, that acts on alternative currents and magnetic moments. Iron filings interested in a horseshoe magnet show the magnetic flux. Magnetism is one side of the combined magnetic force force. It refers to physical phenomena arising from the force caused by magnets, objects that turn out fields that attract or repel alternative objects.
________________________________________________________
Correct answer choice for question 8 :
D) Domains
Explanation:
Magnetism could be a category of physical phenomena that are mediate by magnetic fields. Electrical currents and therefore the magnetic moments of elementary particles bring about to a magnetic flux, that acts on alternative currents and magnetic moments. Iron filings interested in a horseshoe magnet show the magnetic flux. Magnetism is one side of the combined magnetic force force. It refers to physical phenomena arising from the force caused by magnets, objects that turn out fields that attract or repel alternative objects.
________________________________________________________
A(n) 0.95-kg bucket is tied to a rope of negligible mass that is wrapped around a pole mounted horizontally on frictionless bearings. The cylindrical pole has a diameter of 0.340 m and a mass of 2.60 kg. When the bucket is released from rest, how long will it take to fall to the bottom of the 20.0 m well?
Suppose a treadmill has an average acceleration of 4.7 x 10^-3. A) how much does its speed change after five min? B )If the treadmill's initial speed is 1.7 m/s ,what will it's final speed be?
Explanation:
Given that,
Acceleration of the treadmill, [tex]a=4.7\times 10^{-3}\ m/s^2[/tex]
Time, t = 5 min = 300 s
Acceleration is given by :
[tex]a=\dfrac{v-u}{t}[/tex]
(a) (v-u) is the change in speed.
[tex]v-u=a\times t[/tex]
[tex]v-u=4.7\times 10^{-3}\times 300[/tex]
[tex]v-u=1.41\ m/s[/tex]
So, the change in speed of the treadmill is 1.41 m/s.
(b) Initial speed of the treadmill, u = 1.7 m/s
The final speed is given by using equation as :
[tex]v=u+at[/tex]
[tex]v=1.7+4.7\times 10^{-3}\times 300[/tex]
v = 3.11 m/s
Hence, this is the required solution.
in the movie The Martian why does Watney need to move away from the HAB?
While the movie The Martian portrays a strong windstorm forcing Mark Watney to move away from the HAB, in reality, Mars' thin atmosphere makes such forceful windstorms unlikely. Watney's movements away from the HAB are more a result of seeking survival solutions than escaping the aftermath of a storm. The movie creatively explores human survival and ingenuity on Mars, though it takes liberties with Martian atmospheric science.
Explanation:In the movie The Martian, the protagonist Mark Watney, played by Matt Damon, is stranded on Mars due to a strong windstorm that forces his crew to evacuate, thinking him dead. This premise raises intriguing questions about the possibility of such windstorms on Mars. Although the depiction of Mars in the film is largely accurate, astronomers have pointed out that the Martian atmosphere is too thin for windstorms to possess the force shown in the movie. Thus, the scenario dramatized in the film, including the necessity for Watney to move away from the HAB (Habitat Module), stems more from creative license than from scientific accuracy. However, this fictional setup serves as a backbone for exploring human ingenuity and survival in extraterrestrial environments.
Watney's decision to move away from the HAB at different points in the story is driven more by narrative needs and his strategies for survival, such as finding a way to communicate with Earth or traveling to the Ares 4 landing site, rather than by the windstorm's aftermath. The challenges Watney faces and overcomes highlight a powerful message about resilience and the capacity to innovate under dire circumstances.
two boxes sit on a frictionless surface and are in contact with one another. the first box has a mass of 7 kg and the second box has a mass of 8 kg. A 25 N force is applied to the 7 kg box. Find the acceleration of the boxes. find the force between the boxes
Final answer:
The acceleration of the two boxes on a frictionless surface is 1.67 m/s². The force between the two boxes, as calculated using Newton's second law of motion, is 13.36 N.
Explanation:
To find the acceleration of the two boxes on a frictionless surface that are in contact with each other, we can use Newton's second law of motion, which states that the acceleration of an object is directly proportional to the net force acting on the object and inversely proportional to its mass (F = ma).
The first box has a mass of 7 kg and the second box has a mass of 8 kg. The total mass of the system is therefore 7 kg + 8 kg = 15 kg. When a 25 N force is applied to the 7 kg box, and since there is no friction, this force is the net force acting on the system of both boxes.
The formula for acceleration is a = F/m, where F is the net force and m is the total mass. Substituting our values, we have a = 25 N / 15 kg, which gives an acceleration (a) of 1.67 m/s² (to two decimal places).
Now to find the force between the boxes, we consider that the same acceleration applies to both because they are in contact. The force that the 7 kg box exerts on the 8 kg box is equal to the mass of the 8 kg box times the acceleration. Using F = ma again, we get F = 8 kg x 1.67 m/s², which gives us a force (F) of approximately 13.36 N.
If a 75-kg skater starts his skate at 8.0m, at his lowest point (height = 0), what is
his velocity?
...?
Final answer:
The skater's velocity at his lowest point, where all his potential energy has been converted to kinetic energy, is approximately 3.96 m/s given his initial height of 8.0 meters and mass of 75 kg.
Explanation:
The question you're asking involves the principles of conservation of energy, particularly how potential energy is converted into kinetic energy. Since the skater starts at a height of 8.0 meters and ends at a height of 0 meters, all of the potential energy due to gravity would be converted to kinetic energy (assuming no air resistance and a frictionless surface). The potential energy at the start (PEstart) equals the kinetic energy at the lowest point (KElowest).
To find the velocity of the skater at the lowest point, we use the formula for gravitational potential energy (PE = mgh) and set it equal to the formula for kinetic energy ½ mv2, where 'm' is mass, 'g' is the acceleration due to gravity (9.81 m/s2), 'h' is the initial height, and 'v' is the velocity.
So, PEstart = mgh = KElowest = ½ mv2. Plugging in the values, we get 75 kg × 9.81 m/s2 × 8.0 m = ½ × 75 kg × v2. Solving for 'v', the velocity of the skater at his lowest point, we find that:
(75 kg × 9.81 m/s2 × 8.0 m) / (0.5 × 75 kg) = v2
(588.6 kg*m2/s2) / (37.5 kg) = v2
15.7 m2/s2 = v2
v = √(15.7 m2/s2)
v ≈ 3.96 m/s
Therefore, the skater's velocity at his lowest point is approximately 3.96 m/s.
Let ρAl represent the density of aluminum and ρFe that of iron. Find the radius of a solid aluminum sphere that balances a solid iron sphere of radius rFe on an equal-arm balance. (Use r_F for r Fe, rho_A for ρAl, and rho_F for ρ as necessary.)
Answer:
r = [3 * (pAl/MAl)]/(4 * pi)]^1/3
r = [3 * (pFe / MFe)]/(4 * pi)]^1/3
Explanation:
In the equilibrium state, aluminum and iron have the same mass. From the density equation and solving for the mass we have:
Mass = density/volume
MFe = pFe/V
MAl = pAl/V
In equilibrium, we have that MFe = MAl
Solving for the volume:
MFe = pFe/V
V = pFe/MFe
MAl = pAl/V
V = pAl/MAl
The equation for the volume of a sphere is equal to:
V = (4 * pi * r^3)/3
Replacing the volume of both iron and aluminum, we have:
V = (4 * pi * r^3)/3
r = [(3 * V)/(4 * pi)]^1/3
r = [3 * (pAl/MAl)]/(4 * pi)]^1/3
r = [3 * (pFe/MFe)]/(4 * pi)]^1/3
1. How far from the home did Karen and her mother travel during the first hour of the trip?
2. Calculate the average speed of the car during the first hour of the trip.
3. How far did Karen and her mother travel during the second hour of the trip?
4. Calculate the average speed of the car during the first two hours of the trip.
5. Identify the time period(s) during the trip when the car was traveling at the greatest average speed.
6. Identify the time period(s) during the trip when the car was stopped.
7. Calculate the average speed of the car for the first three hours of the trip.
8. If Karen and her mother take three hours to come home, calculate the average speed of the car for the trip home.
Please help! If the instantaneous speed of an object remains constant, can its instantaneous velocity change? If the instantaneous velocity of an object remains constant, can its instantaneous speed change? ...?
Final answer:
Instantaneous speed and instantaneous velocity are related but different concepts in physics. The instantaneous speed refers to the speed of an object at a specific instant in time, while instantaneous velocity includes both magnitude and direction. If the instantaneous speed of an object remains constant, its instantaneous velocity can change if there is a change in direction of motion. Similarly, if the instantaneous velocity remains constant, the instantaneous speed can change if the object accelerates or decelerates.
Explanation:
Instantaneous speed and instantaneous velocity are related but different concepts. Instantaneous speed refers to the speed of an object at a specific instant in time, while instantaneous velocity refers to the velocity of an object at a specific instant in time, including both magnitude and direction. Although the instantaneous speed of an object can remain constant, its instantaneous velocity can change if there is a change in direction of motion. For example, if an object is moving in a circular path at a constant speed, its instantaneous speed remains the same, but its instantaneous velocity constantly changes because the direction of motion is constantly changing.
Similarly, if the instantaneous velocity of an object remains constant, its instantaneous speed can still change if the object speeds up or slows down. This can occur when an object experiences an acceleration or deceleration. For example, if a car is moving at a constant velocity of 50 km/h and suddenly accelerates, its instantaneous velocity remains constant but its instantaneous speed increases.
The motion of a car on a position-time graph is represented with a horizontal line. What does this indicate about the car’s motion? A.It’s not moving. B. It’s moving at a constant speed. C.It’s moving at a constant velocity. D. It’s speeding up.
Answer;
A.It’s not moving.
Explanation;
Position-Time graphs display the motion of a object by showing the changes of velocity with respect to time.
The motion of a car on a position-time graph that is represented with a horizontal line indicates that the car has stopped moving.
A straight line with a positive slope indicates that the car is moving at a constant velocity, and thus the slope is constant. On the other hand, a curve with a changing slope, shows that the velocity is changing.
Actually it DOES mean that it is not moving. That other guy was right and you gave him 2 stars!
An echo repeats two syllables.If the velocity of sound is 330 m/s , then the distance of the reflecting surface is-
a) 66.0 m
b) 33.0 m
c) 99.0 m
d) 16.5 m