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The 400 V battery of a Tesla model S electric car stores 3.0 x 108J of...
The Tesla Model X is an electric car that can travel approximately 238-295 mi on a...
The Tesla Model X is an electric car that can travel approximately 238-295 mi on a full charge. Tesla dealers claim the time it takes to fully recharge depends on the percent depleted, but is approximately a normal random variable X with mean u = 2.5 hours and standard deviation o = 0.75 hour (on a 240-volt line). Suppose a random Tesla Model X is connected to a home recharging station. (c) If the amount of time to fully recharge...
A typical family-sized electric car delivers PP=109 horsepower from its electric motor, which is powered by...
A typical family-sized electric car delivers PP=109 horsepower from its electric motor, which is powered by a lithium-ion battery that stores EE=23 kWh when fully charged. The car has a driving range of dd=112 km on a single charge. When fully charged, the car’s battery has a potential difference of VV=399 V across its terminals. (a) How far can this car drive on xx=1 kJ of energy? (b) What current is delivered by the fully-charged battery?
3. A pure electric car is designed to operate with 12 V battery with a total...
3. A pure electric car is designed to operate with 12 V battery with a total energy of 2.00010? 5 stored when it is full. When the car moves with constant speed of 20.0 m/s lits electric motor spends 8.00 kw power. a) Find the current used b) Determine the distance you can travel with one charge distance by motor
A pure electric car is designed to operate with 12 V battery with a total energy...
A pure electric car is designed to operate with 12 V battery with a total energy of 2.00×10^7 J stored when it is full. When the car moves with constant speed of 20.0 m/s, its electric motor spends 8.00 kW power. a) Find the current used by motor. b) Determine the distance you can travel with one charge.
An electric car is designed to run off a bank of 12.0 V batteries with a...
An electric car is designed to run off a bank of 12.0 V batteries with a total energy storage of 1.80 ✕ 107 J. (a) If the electric motor draws 9.00 kW, what is the current delivered to the motor? =_____ A (b) If the electric motor draws 9.00 kW as the car moves at a steady speed of 20.0 m/s, how far will the car travel before it is "out of juice"? =______ km
The Nissan Leaf is an all-electric car powered by a 107-hp electric motor and a lithium-ion...
The Nissan Leaf is an all-electric car powered by a 107-hp electric motor and a lithium-ion battery that stores 24 kWh and produces 394 V at its terminals when fully charged. The Leaf's battery can charge at the rate of 3.3 kW from a standard 120-V power outlet, at 6.6 kW from a 240-Voutlet, and at 44 kW using a special 480-Vcharge. The Leaf's fuel economy is 3.38 miles per kWh, the equivalent of 114 miles per gallon in a...
A lightweight electric car is powered by a series combination of ten 12.0-V batteries, each having...
A lightweight electric car is powered by a series combination of ten 12.0-V batteries, each having negligible internal resistance. Each battery can deliver a charge of 154 A · h before needing to be recharged. At a speed of 82 km/h, the average frictional force due to air drag and rolling friction is 1.34 kN. (a) What must be the minimum power delivered by the electric motor if the car is to travel at a speed of 82 km/h? ________kW...
2. The electric vehicle Tesla Model S has a drag coefficient of 0.24, a mass of 2100 kg, and a frontal area of 2.4 m2....
2. The electric vehicle Tesla Model S has a drag coefficient of 0.24, a mass of 2100 kg, and a frontal area of 2.4 m2. The coefficient of rolling resistance of its tires is 0.01. Recall the density of air at sea level is 1.3 kg/m3. How much kinetic energy is required to overcome rolling resistance and air resistance (drag) at Autobahn speeds of 180 km/hr for a 200 km trip? How much useful energy (in MJ) and money (in...
A 400-V battery pack is used to accelerate an electric car over a time interval of...
A 400-V battery pack is used to accelerate an electric car over a time interval of 9.5 s. If 2427 C of charge flow through the battery pack during this acceleration period, determine the horsepower of the car's engine. Please show work if possible.Please answer in hp, not kw.
An all-electric car (not a hybrid) is designed to run from a bank of 12.0 V...
An all-electric car (not a hybrid) is designed to run from a bank of 12.0 V batteries with total energy storage of 1.90 ✕ 107 J. (a) If the electric motor draws 8.20 kW as the car moves at a steady speed of 20.0 m/s, what is the current (in A) delivered to the motor? 683.33 A (b) How far (in km) can the car travel before it is "out of juice"? 46.34 km (c) What If? The headlights of...
The Tesla Model X is an electric car that can travel approximately 238-295 mi on a full charge. Tesla dealers claim the time it takes to fully recharge depends on the percent depleted, but is approximately a normal random variable X with mean u = 2.5 hours and standard deviation o = 0.75 hour (on a 240-volt line). Suppose a random Tesla Model X is connected to a home recharging station. (c) If the amount of time to fully recharge...
3. A pure electric car is designed to operate with 12 V battery with a total energy of 2.00010? 5 stored when it is full. When the car moves with constant speed of 20.0 m/s lits electric motor spends 8.00 kw power. a) Find the current used b) Determine the distance you can travel with one charge distance by motor
2. The electric vehicle Tesla Model S has a drag coefficient of 0.24, a mass of 2100 kg, and a frontal area of 2.4 m2. The coefficient of rolling resistance of its tires is 0.01. Recall the density of air at sea level is 1.3 kg/m3. How much kinetic energy is required to overcome rolling resistance and air resistance (drag) at Autobahn speeds of 180 km/hr for a 200 km trip? How much useful energy (in MJ) and money (in...
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