PHYSICS HIGH SCHOOL

A dog walks 12 meters to the west and then 16 meters back to the east

Answers

Answer 1
Answer:

Answer:

Explanation:

4 meters east
Answer 2
Answer: 4 meters east dude woot

Related Questions

Which two objects have stored energy? A) a ball rolling on the groundB) a small rock sitting on top of a big rock C) a stretched rubber band D) a stone lying on the ground
What is required to cause acceleration?
Billy is sitting in a chair in class. If the action force is the downward push of his weight on the chair, what is the reaction force?
To test the hypothesis that plants grow faster in green light, a student set up 3 of the same type of plants. She placed the first plant under a green light, the second plant under a regular light bulb, and the third plant under a red light. What is the dependent variable in this experiment?
sketch a velocity time graph for the motion of the body . from the graph explain each step, calculate the total distance covered by the body

Which of the following lists the stars in order from least density to greatest density?A. white dwarf, neutron star, main sequence star, giant
B. giant, main sequence star, white dwarf, neutron star
C. white dwarf, neutron star, giant, main sequence star
D. neutron star, white dwarf, main sequence star, giant

Answers

The following lists ofstars in order from least density to greatest density are giant, main sequencestar, white dwarf, neutron star. The answer is letter B. Aside from neutronstar being the densest star, it is also the smallest star compared to the giantstar, as its name implied.

Answer:

B

Explanation:

as a medium star

needhelpp101 Why is the gravitational potential energy of an object 1 meter above the moon’s surface less than its potential energy 1 meter above Earth’s surface? A. The object’s mass is less on the moon. B. The object’s weight is more on the moon. C. The object’s acceleration due to gravity is less on the moon. D. both a and c

Answers


If you remember the formula for potential energy,
then this question is a piece-o-cake.

  Potential energy = (mass) x (acceleration of gravity) x (height) .

-- The object's mass is the same everywhere.
-- You said that the height is the same both times.
-- How about the acceleration of gravity ? 

Compared to gravity on Earth, it's only  16.5 percent as much on the Moon. 
So naturally, from the formula, you'd expect the Potential Energy to be less
on the Moon.

What acceleration would engineers at Boeing calculate for the 737-900 during a typical take-off, given the plane's 78,200-kg mass and its maximum engine force of 121,000 N? A) 1.55 m/s² B) 0.98 m/s² C) 2.45 m/s² D) 0.62 m/s²

Answers

Answer:

Approximately 1.55\; {\rm m\cdot s^(-2)}, assuming that the runway is level, and that air resistance is negligible at the start of take-off.

Explanation:

The acceleration of this aircraft can be found in the following steps:

  • Find the net force on this aircraft.
  • Divide net force by mass to find acceleration.

Assume that when the plane just started the take-off, the air resistance (drag) on this aircraft is negligible. Forces on this aircraft during takeoff would include:

  • Weight of the aircraft (downward),
  • Normal force from the ground (upward), and
  • Thrust (forward.)

Under the assumption that the plane is on a level runway, forces in the vertical direction would be balanced. The only unbalanced force would be thrust, which is in the horizontal direction. Hence, the net force on this aircraft would be equal to thrust.

If the engine force is at the maximum value, the thrust and the net force on the aircraft would be 121,\!000\; {\rm N}. Divide the net force on this aircraft by mass to find acceleration:

\begin{aligned} a &= \frac{F_{\text{net}}}{m} \n &= \frac{121000\; {\rm N}}{78200\; {\rm kg}} \n &\approx 1.55\; {\rm m\cdot s^(-2)}\end{aligned}.

In other words, the acceleration of this aircraft would be no greater than approximately 1.55\; {\rm m\cdot s^(-2)} under the assumptions.

Final answer:

The acceleration of the Boeing 737-900 during take-off, calculated using Newton's second law of motion (Force = Mass x Acceleration), is approximately 1.55 m/s².

Explanation:

The acceleration of the Boeing 737-900 during take-off can be calculated using Newton's second law of motion, which states that Acceleration = Force/Mass. In this case, the force is the maximum engine force, and the mass is the mass of the airplane. So, acceleration (a) = Force (F) / Mass (m) = 121,000 N / 78,200 kg = 1.548 m/s². Therefore, the closest answer to this calculation would be A) 1.55 m/s².

Learn more about Acceleration here:

brainly.com/question/2303856

#SPJ11

Would a tiger be a consumer or producer?

Answers

Tigers don't produce anything useful, but they are the top of their food chain. They would e top predators, and top predators are always consumers.

The captain told the passengers that the plane is flying at 450 miles per hour. This information describes the plane's

Answers

the speed of the plane

Erica (39 kg ) and Danny (46 kg ) are bouncing on a trampoline. Just as Erica reaches the high point of her bounce, Danny is moving upward past her at 4.6 m/s . At that instant he grabs hold of her.

Answers

Answer:

V = 2.79 m/s

Explanation:

Momentum before = momentum after

Erica's momentum = 0

Danny momentum = 49 kg * 4.9 m/s = 240.1 kg-m/s

240.1 + 0 = (37 + 49) kg * V

86 V = 240.1

V = 2.79 m/s
Other Questions
15. A ball attached to a string is being swung in a clockwise circular path as shown in Figure 3-1. In which directionwill the acceleration on the ball be when the ball passes point A?a. direction ab. direction bc. direction cd. direction d
A hobo hops a freight train traveling at 2.5 m/s due east. The man boards the train from the rear of the boxcar and walks from the southwest corner to the north east corner of the car at a rate of 5.0 m/s. The boxcar is 15 meters long and 3 meters wide. What is the velocity of the man relative to the train tracks?
What is the volume of a rectangular object with L = 4.00 cm W = 2.00 cm H = 0.50 cm?
10Two blocks A and B are joined by a string and rest on a frictionless horizontal table. A force a 200N is applied horizontally on block B. Upload the picture of your answer (Non-anonymous question)* (10 Points) A Draw free-body diagrams for both boxes. Upload filo B 200 N