Question 6 (5 points)
A Tesla car weighs 250,000 Newtons Travels a distance of 64 M in 2
seconds (115 km / hour). The Voltage of the Battery of the car is 375
Volts. The Current is 32 kA.
What is the % Efficiency of the power
The efficiency of the power is 70%. This means that 70% of the energy supplied by the battery is used to move the car, and the remaining 30% is lost as heat and other forms of energy loss.
How to calculate the valueThe efficiency of the power is calculated as follows:
Efficiency = Work output / Work input
The force is the weight of the car, which is 250,000 N, and the distance is 64 m. So the work output is:
Work output = 250,000 N * 64 m
= 16,000,000 J
The voltage is 375 V, the current is 32 kA, and the time is 2 seconds. So the work input is:
Work input = 375 V * 32 kA * 2 s = 23,040,000 J
The efficiency is then:
Efficiency = 16,000,000 J / 23,040,000 J = 70%
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Question 5 (5 points)
A Vex motor has a has a voltage of 9 volts running through it, and a
current of 15 mA. What is the power?
(Precision of 0.000)
The power of the Vex motor is 0.135 watts.
How to solveThe power of the Vex motor can be calculated using the formula:
Power (P) = Voltage (V) * Current (I)
Substituting the given values:
P = 9 volts * 15 mA
To simplify the calculation, we convert milliamperes (mA) to amperes (A):
P = 9 volts * 0.015 amperes
P = 0.135 watts
Therefore, the power of the Vex motor is 0.135 watts.
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Energy problem formulas
Potential Energy = mgh
v = velocity or speed
Kinetic energy = mv²
9 = 9.8 m/s²
m = mass in kg
(Precision of 1)
h = height in meters
You serve a volleyball with a mass of 3.1 kg. The ball leaves your hand
with a speed of 20 m/s.
a) Calculate Kinetic Energy
(Precision of 1)
b) How much work is being done to the system to create this kinetic
energy?
I need this asap
a. The kinetic energy is 620 J
b. The amount of work done is equal to the kinetic energy. In this case, the work done is 620 J.
How to calculate the valuea. The formula for kinetic energy is:
KE = 1/2mv²
where:
KE is the kinetic energy in joules (J)
m is the mass in kilograms (kg)
v is the velocity in meters per second (m/s)
In this case, we have:
m = 3.1 kg
v = 20 m/s
So, the kinetic energy is:
KE = 1/2(3.1 kg)(20 m/s)²
= 620 J
b) How much work is being done to the system to create this kinetic energy?
Work is done to the system to create kinetic energy. The amount of work done is equal to the kinetic energy. In this case, the work done is 620 J.
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Explain why the following scenario fails to meet the definition of an implementation plan.
Situation: Ian, the project lead for flight simulator software, has identified his project team, including three programmers, two junior programmers, and a writer. He has requested a budget of $250,000 for six months and is preparing to begin coding.
Explanation:
based on the information provided, it is difficult to determine why this scenario would fail to meet the definition of an implementation plan. However, it is possible that additional information is needed to fully understand the situation and evaluate whether or not it meets the criteria for an implementation plan. An implementation plan typically includes specific steps and timelines for completing a project, as well as a budget and resources needed to carry out those steps. It may also include contingency plans and risk management strategies. Without more detailed information about Ian's plan and how he intends to execute it, it is unclear if this scenario meets the criteria for an implementation plan.