Answer:
B. most gets converted to heat energy
Explanation:
Let us take the example of a car. Though some formula one cars have 50% efficiency, the efficiency of an internal combustion car varies between 18–20%. Though some formula one cars have 50% efficiency This means that more than 80% of energy is not utilized hence it is wasted. Little energy does get converted to sound. But almost no energy changes to light.
So, most gets converted to heat energy.
What two organelles should be labeled that WOULD NOT be found in an animal cell?
Which of the following is distance divided by the change in time?
displacement
acceleration
speed
velocity
Answer:
the correct answer is speed, velocity scored incorrectly on my quiz
Explanation:
Let v(t)=t^2−3t be the velocity, in feet per second, of an object at time t, in seconds.
a) What is the initial velocity? ___ ft/sec
b) When does the object have a velocity of zero? If there is more than time, list all answers in a comma separated list. ___ seconds
The initial velocity of the object is 0 ft/sec. The points in time when the object has a velocity of zero are at t=0 and t=3 seconds.
Explanation:To answer these questions, it's important to understand what the variables represent in this equation. The object's velocity is given by v(t)=t^2−3t where v is the velocity in feet per second and t is the time in seconds.
a) The initial velocity is the velocity of the object at the start, which means at time t=0. By substituting t=0 in the equation, we obtain v(0)=(0)^2 - 3(0) = 0 feet/sec.
b) The object has a velocity of zero when v(t) = 0. In other words, we need to solve the equation t^2−3t = 0 for t. Factoring, we get t(t - 3) = 0, thus t = 0, 3 seconds are the moments at which the object's velocity is zero.
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The figure below shows an acceleration-versus-force graph for three objects pulled by rubber bands. The mass of object 2 is 0.20 kg. What are the masses of objects 1 and 3?
Without the graph, we can't calculate the exact masses. However, by finding the slope of the line representing each object on a force-versus-acceleration graph, and using Newton's Second Law (F=ma), we can solve for the objects' masses.
Explanation:The question refers to an acceleration-versus-force graph for three objects but unfortunately no graph was provided. However, in order to calculate the mass of the objects from an acceleration-versus-force graph, we could potentially use Newton's Second Law (F = ma), where F is the force, m is the mass, and a is the acceleration. Here's how it would be done:
For each object, find the slope of the line connecting it to the origin. The slope will give you the acceleration of the object.If you are given the force (F), use Newton's Second law to solve for mass (m).Note that if you see a higher slope for one object compared to another, it means that the object has a lesser mass, because a lesser mass will lead to a greater acceleration under the same force.Learn more about Physics here:https://brainly.com/question/32123193
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The masses of objects 1 and 3 are 0.25 kg and 1.5 kg, respectively.
To find the masses of objects 1 and 3, we can use Newton's second law of motion, which states that force is equal to mass times acceleration:
F = ma
We can rewrite this equation to solve for mass:
m = F / a
Step 1: Find the slope of the line for each object
The slope of a line is equal to rise over run. In an acceleration-versus-force graph, the rise is the acceleration and the run is the force.
For object 1, the slope of the line is 4a / 1 = 4a. This means that object 1 has an acceleration of 4a for every 1 unit of force.
For object 2, the slope of the line is 3a / 2 = 1.5a. This means that object 2 has an acceleration of 1.5a for every 1 unit of force.
For object 3, the slope of the line is 2a / 3 = 0.67a. This means that object 3 has an acceleration of 0.67a for every 1 unit of force.
Step 2: Calculate the mass of each object
Now that we know the acceleration of each object, we can use Newton's second law to calculate their masses.
Mass of object 1:
m1 = F / a1 = 1 / 4a = 0.25 kg
Mass of object 2:
m2 = F / a2 = 1 / 1.5a = 0.67 kg
Mass of object 3:
m3 = F / a3 = 1 / 0.67a = 1.5 kg
Conclusion
The masses of objects 1 and 3 are 0.25 kg and 1.5 kg, respectively.
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The stress force that causes a mass of rock to pull or twist in opposite directions in called ______.
Shearing
The stress force that causes a mass of rock to pull or twist in opposite directions is called shearing.
Hope this helps! :)
what is Initial temperature and final temperature equations??
...?
Democritus thought that matter was made of tiny particles
A. of earth, air, fire, and water.
B. that could not be divided.
C. that could be divided.
D. that were all round and smooth.
Correct answer choice is :
B) That could not be divided.
Explanation:
Democritus was a Greek scholar who lived within 470-380 B.C. He elaborated the theory of the atom, Greek for permanent. Democritus thought that everything in the world was made up of atoms, which were tiny and durable. They assumed that matter was made up of very small particles. They named these particles atoms, which comes from an antique Greek word signifying permanent. These atoms were supposed to be absolutely indivisible and forever.
Static, sliding and rolling are types of friction true or false
What is the milky way?;
Our galaxy, the Milky Way, appears to be a band of stars in the sky, but it's actually a disk. Hundreds of billions of stars are clumped into lines called spiral arms. Earth is located about half-way between the center of the Milky Way and its outer edge.
What is the value of the normal force if the coefficient of kinetic friction is 0.22 and the kinetic frictional force is 40 newtons?
The value of the normal force if the coefficient of kinetic friction is 0.22 and the kinetic frictional force is 40 Newtons would be 181.81 Newtons.
What is friction?The friction force prevents any two surfaces of objects from easily sliding over each other or slipping across one another. It depends upon the force applied to the object.
As given in the problem we have to find the value of the normal force if the coefficient of kinetic friction is 0.22 and the kinetic frictional force is 40 newtons,
Friction force =(coefficient of friction)*Normal force
40 = 0.22* Normal force
Normal Force = 40/0.22
=181.81 Newtons
Thus, the normal force comes out to be 181.81 Newtons.
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A 3858 N piano is to be pushed up a(n) 3.49 m frictionless plank that makes an angle of 31.6 ◦ with the horizontal. Calculate the work done in sliding the piano up the plank at a slow constant rate. Answer in units of J.
Answer:
7055.13 J
Explanation:
Step 1: identify the given parameters
Applied force on the piano = 3858NLength of plank = 3.49mangle between the plank and horizontal surface = 31.6⁰Note: frictional force between the piano and horizontal surface is zero since the plank is frictionless.
Step 2: work done in sliding the piano up the plank = applied force X distance moved by the piano.
The distance moved by the piano is equal to the height above ground when the piano reach top of the plank.
make a sketch of right angle trianglelength of the plank is the hypotenuse sideangle between the hypotenuse and the horizontal is 31.6⁰height of the triangle is the height above ground , let it be the unknownHeight of the triangle = 3.49m X sine31.6⁰
Height of the triangle = 1.8287m
Recall, height of the triangle is the height above ground which is equal to the distance moved by the piano
work done in sliding the piano up the plank = applied force X distance moved by the piano.
work done in sliding the piano up the plank = 3858N X 1.8287M
= 7055.13 J
Audio frequency range of a human ear is 20Hz - 20000 Hz. Express the range in terms of time period ? Answer needed urgently. Pl. help. Thanks ! S.Ramya ...?
The velocity v of the flow of blood at a distance "r" from the central axis of an artery of radius "R" is: v = k(R^2^ - r^2^) where k is the constant of proportionality. Find the average rate of flow of blood along a radius of the artery. (use 0 and R as the limits of integration) ...?
Final answer:
The average rate of flow of blood along the radius of an artery is found by integrating the velocity equation v = k(R² - r²) from 0 to R, which results in an average velocity formula of (2/3)kR after integration and simplification.
Explanation:
The question asks to find the average rate of flow of blood along a radius of the artery using the given velocity equation v = k(R² - r²) and integrating between the limits 0 and R. To find the average velocity, we integrate the given equation across the artery's radius and then divide by the radius R to calculate the average.
The integration process involves calculating the integral of k(R² - r²) with respect to r, over the interval from 0 to R, which gives us kR²r - (kr³)/3 evaluated between 0 and R. Substituting the limits and simplifying, the result is (2/3)kR². To find the average velocity, we divide this by R, resulting in an average velocity of (2/3)kR.
An airplane heads northeast at an airspeed of 700 km/hr, but there is a wind blowing from the west at 60 km/hr. In what direction does the plane end up flying? What is its speed relative to the ground?
Final answer:
The plane ends up flying northeast. To find its speed relative to the ground, use vector addition to calculate the resultant velocity as 694 km/hr.
Explanation:
Direction: The plane ends up flying northeast.
Speed Relative to the Ground: To find the speed relative to the ground, we need to calculate the resultant velocity. The plane's velocity relative to the air is northeast at an angle, while the wind blows from the west. Using vector addition, we determine the speed relative to the ground to be 694 km/hr.
Vector Addition: Vector addition is essential to determine the resultant velocity of the plane with respect to the ground, taking into account both the airspeed and the wind speed.
All waves consist of a continuous series of _____.
pulses
circles
compressions
rarefactions
Answer: The correct answer is pulses.
Explanation:
Wave is a disturbance which carries energy from one particle to another. Wave is a continuous disturbance.
Pulse is a single disturbance. It travels through one point to another.
Sound wave consists of rarefaction and compression. It need medium to travel.
In the circular wave, the particles move both parallel and perpendicular to the motion of the wave.
Therefore, all waves consist of a continuous series of the pulses.
A cyclist maintains a constant velocity of
4 m/s headed away from point A. At some
initial time, the cyclist is 253m from point A.
What will be his displacement from his
starting position after 64 s?
Answer in units of m
What will be his position from point A after
that time?
Answer in units of m
The cyclist's displacement from the starting position after 64 seconds is 256 meters. Their position from point A after that time is 509 meters.
Explanation:If a cyclist maintains a constant velocity of 4 m/s headed away from point A, their displacement after any given time can be calculated using the formula Δx = vt, where Δx is the displacement, v is the velocity, and t is the time. For a time of 64 seconds, the displacement would be Δx = (4 m/s) × (64 s) = 256 meters.
Since the cyclist starts 253 meters away from point A, the new position (total distance from point A) after 64 seconds can be found by adding the initial distance to the displacement. This gives us a total distance = 253 m + 256 m = 509 meters from point A.
A car has a mass of 1,200 kg. What is its acceleration when the engine exerts a force of 600 N? (Formula: F=ma) 0.5 m/s2 2 m/s2 600 m/s2 1,800 m/s2
As per the question the car has a mass of 12,00 kg.
The engine exerts a force of 600 N. [ here newton i.e N is the unit of force]
We are asked to calculate the acceleration of the particle .
From Newton's second law of motion we know that force acting on a particle is mass times the acceleration of the particle . Mathematically it can be written as-
F = ma [Here F is the applied force,m is the mass which is constant here and ' a' is the acceleration]
Here m =1200 kg
F = 600 N
Hence the acceleration produced due to the force exerted by the engine on car is-
[tex]a =\frac{F}{m}[/tex]
[tex]=\frac{600 N}{1200 kg}[/tex]
[tex]=0.5 m/s^2[/tex] [ans]
A speeding car collides with a wall (attached to Earth). Consider the car-Earth system to be isolated. A loud sound is produced in the collision, and the car is deformed. What can you say about the momentum of the car-Earth system in this case? ...?
Answer:
A. The total momentum of the system is conserved.
how does the volume occupied by a cubic centimeter compare with the volume occupied by a millimeter
Brittany is changing the tire of her car on a steep hill 22.4 m high. She stumbles and drops the 10.5-kg spare tire, which rolls down the hill, starting with an initial speed of 2.10 m/s.
What is the speed of the tire at the top of the next hill, which is 8.59 m high?
The speed of the tire at the top of the next hill, which is 8.59 m high, is approximately 15.12 m/s.
a) Variables:
- [tex]\( h_1 \)[/tex] = Initial height of the hill (22.4 m)
- [tex]\( h_2 \)[/tex] = Height of the next hill (8.59 m)
- [tex]\( v_{i1} \)[/tex] = Initial speed of the tire (2.10 m/s)
-[tex]\( v_{f1} \)[/tex] = Final speed at the top of the first hill
- [tex]\( v_{f2} \)[/tex] = Final speed at the top of the next hill
- g = Acceleration due to gravity (-9.8 m/s²)
b) Equation for the first hill:
[tex]\[ v_{f1}^2 = v_{i1}^2 + 2gh_1 \][/tex]
c) Calculate [tex]\( v_{f1} \)[/tex]:
[tex]\[ v_{f1}^2 = (2.10 \, \text{m/s})^2 + 2(-9.8 \, \text{m/s}^2)(22.4 \, \text{m}) \][/tex]
[tex]\[ v_{f1} \approx 16.83 \, \text{m/s} \][/tex]
d) Equation for the next hill:
[tex]\[ v_{f2}^2 = v_{f1}^2 + 2gh_2 \][/tex]
e) Solve for [tex]\( v_{f2} \)[/tex]:
[tex]\[ v_{f2}^2 = (16.83 \, \text{m/s})^2 + 2(-9.8 \, \text{m/s}^2)(8.59 \, \text{m}) \][/tex]
[tex]\[ v_{f2} \approx 15.12 \, \text{m/s} \][/tex]
The speed of the tire at the top of the next hill, which is 8.59 m high, is approximately 15.12 m/s.
Final answer:
The speed of the tire at the top of the next hill is 21.2 m/s.
Explanation:
To find the speed of the tire at the top of the next hill, we can use the principle of conservation of energy.
According to the principle of conservation of energy, the initial potential energy of the tire at the top of the first hill is equal to the final potential energy of the tire at the top of the next hill.
Therefore, we have:
mgh = 1/2 × mv²
Where m is the mass of the tire, g is the acceleration due to gravity, h is the height difference between the two hills, and v is the final velocity of the tire at the top of the next hill.
Plugging in the values, we get:
10.5 × 9.8 × 22.4 = 1/2 × 10.5 × v²
Solving for v, we find:
v = sqrt((2 × 10.5 × 9.8 × 22.4) / 10.5)
v = 21.2 m/s
A sled and rider, gliding over horizontal, frictionless ice at 4.7 m/s , have a combined mass of 80 kg . The sled then slides over a rough spot in the ice, slowing down to 3.4 m/s . What impulse was delivered to the sled by the friction force from the rough spot? Express your answer to two significant figures and include the appropriate units.
a particle moves along a straight line OX. at a time t(in seconds) the distance X(in metres) from the particle O is given by x=40+12t-t3. how long would the particle travel before coming to rest ...?
Answer:
16m
Explanation:
according to newton's first law of motion what is required to make an object slow down
According to Newton's first law of motion, an object at rest will remain at rest and an object in motion will continue moving at a constant velocity unless acted upon by an external force. To make an object slow down, an external force in the opposite direction of its motion, such as friction, is required.
Explanation:According to Newton's first law of motion, an object will continue moving at a constant velocity unless acted upon by an external force. To make an object slow down, an external force in the opposite direction of its motion is required. This force is called friction. Friction can be caused by various factors, such as air resistance or contact with a surface.
Learn more about Newton's first law of motionWhich of the following best illustrates the role that gravity played in the formation of our solar system?
A. Gravity allowed the nebula to expand and move outward.
B. Gravity caused the nebula to cool enough for planets to form.
C. Gravity removed excess gas and dust from the cores of the planets.
D. Gravity pulled particles of dust and gas together to form planets.
Answer:
Option D
Explanation:
Gravity is a force of attraction by virtue of mass of a body. It is an attractive force. It is due to gravity that the planets and hence, the solar system was formed. Starting from the nebula, the gravity caused the nebula to contract and form start. From rest of the material, the dust and gas were pulled in together due to gravity to form planet. The gravity of the Sun holds the planets in their respective orbits.
Thus, option D is correct.
Elements used to make semiconductors for computers include germanium and
A 60.0- kg dancer leaps 0.32 m high. With what momentum does he reach the ground
The momentum of the dancer is equal to 151 Kg.m/s.
What is momentum?The momentum of a body can be defined as the function of the mass of the body and its velocity. Momentum (p) can be determined as the kinetic energy of the body and is the multiplication of velocity (v) and mass (m).
The mathematical equation to calculate the momentum of the body is equal to:
p = m×v
The momentum can be described as the conserved quantity and will be zero if the velocity of an object is equal to zero.
Given, the mass of the dancer, m = 60 Kg
The height from the ground, h = 0.32 m
The initial velocity of the dancer, u = 0
v² - u² = 2gh
v² - 0 = 2 × 9.8 ×0.32
v² = 6.272
v = 2.53 m/s
The momentum of the dancer does he reach the ground:
p = 60 × 2.53
p = 151 Kg.m/s
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Continental climates have _______ summers and ________ winters.
warm; cold
cool; cool
warm; warm
cool; warm
Answer:
Continental climates have WARM summers and COLD winters. People who live with areas that experience continental climates must be prepared for the seasonal changes.
Explanation:
Because cosmologists can't go out into space and test all of their theories, they must depend on the cosmological principle. This principle assumes that _____.
the universe stays at a steady state
any physical laws are the same for the entire universe
the universe is going to eventually collapse
the universe is cooling down
B.) Any physical laws are the same for the entire universe.
A push or pull that gives energy to an ob-
ject, causing that object to start moving, stop
moving, or change its motion is
1. friction.
2. pressure.
3. inertia.
4. a force. ...?
The acceleration due to gravity on Earth is 9.80 m/s2. An African elephant can have a mass up to 6,050 kg. What is its weight?
The weight of an object is calculated by multiplying its mass by the acceleration due to gravity. With the mass of the African elephant as 6050 kg and Earth's gravity at 9.80 m/s², the elephant's weight would be 59,290 Newtons.
Explanation:The weight of an object is the force exerted on it due to gravity. It can be calculated using the formula Weight = Mass × Gravity. In this case, the mass of the African elephant is given as 6,050 kg, and the acceleration due to gravity on Earth is 9.80 m/s².
Thus by multiplying the mass of the elephant with the acceleration due to gravity, we get: Weight = 6,050 kg × 9.80 m/s² = 59,290 N. So the weight of the African elephant on Earth would be 59,290 Newtons.
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