How can you best identify quackery in a health service provider?A. The provider does not provide success claims or testimonials.
B. The provider has only one doctor on staff.
O
C. The provider's success claims seem too good to be true.
O
D. The provider is not well known.
SUBMIT

Answers

Answer 1

Answer:

C. The provider's success claims seem too good to be true.

Related Questions

The gravitational force between 1kg of lead and Earth is _____ the gravitational force between 1kg of marshmallows and Earth.A. greater thanB. less thanC. the same asD. none of the above
Some constellations, such as Ursa Minor, are visible in the sky year-round; other constellations appear for only part of the year. Explain why this happens.
What considerations are important in a well planned system for handling emergency situations
What are 4 things that can happen to a light wave when it hits an object?
A player kicks a ball with a force of 5 N. The ball travels 10 meters. What was thetotal amount of work?O ouO su50 uo 500O1000 J

Why do animals that are least specialized have a better chance at survival?

Answers

Animals that are the least specialized generally stand the best chance of survival when the environment suddenly and drastically changes because they're able to (Adapt to different conditions.)

Which is likely to produce the brightest spectra?A. Holographic gratings
B. Reflection gratings on plastic
C. Transmission gratings on glass
D. Replica transmission gratings on plastic

Answers

Hi the answer it will be A the correct one

Final answer:

Holographic gratings are likely to produce the brightest spectra.

Explanation:

The correct answer is A. Holographic gratings are likely to produce the brightest spectra. Holographic gratings are created using interference patterns produced by laser light, resulting in highly precise and bright spectra. Reflection gratings on plastic (option B), transmission gratings on glass (option C), and replica transmission gratings on plastic (option D) can also produce spectra, but holographic gratings are known to have superior brightness and quality.

Learn more about Holographic gratings here:

brainly.com/question/32273324

#SPJ2

What was the experiment carried out by Hershel & Ritter.

Answers

Hershel discovered something called Infrared light. It was basically an experiment outdoors and you have a light and when the light hits another surface (like a deck) then that surface heats up

How are hot spots used to track plate motion

Answers

When plates move they sometimes open small cracks that release heat from under earths plate, coming from the mantle or even the core at times, this heat allows scientists to determine where the plates are moving from and where they are moving to.

Answer:

the plates from sink go to hot water then =clean

Explanation:

The chart shows data for four moving objects.Object
Final Velocity
(m/s)
29
Change in
Time (s)
Initial Velocity
(m/s)
11
10
12
20
W
X
Y
IZ
Which object has the greatest acceleration?
34
Ow
OZ

Answers

Answer:

Explanation:

The answer is y because,

W: (29-11)/6 = 3

X: (34-10)/12 =2

Y: (40-12)/7=4

Z= (28-20)/8=1

4 is greater then all, therefore the answer is Y

Answer:

Explanation:

v=u+at but t is constant so

a=v-u

for x

a=29-10

a=19

which marks the greater acceleration

A toy car runs off the edge of a table that is 1.225m high .the car lands 0.400m from the base of the table .

Answers

Answer:

a) 0.5s

b) 2.45m/s

Explanation:

The toy car in figure 6-12 runs off the edge of a table that is 1.225m high. The car lands 0.400m from the base of a table.

a) How long did it take the car to fall?

b) How fast was the car going on the table?

don't now if this helps but let me now if it did

Final answer:

The question is about a physics concept called projectile motion. First, we calculate the time the toy car is in the air using the height of the table and gravity, and then we find the horizontal velocity of the car as it leaves the table.

Explanation:

The question is about a situation where a toy car runs off the edge of a table and lands on the floor. This situation is a classic problem in physics pertaining to projectile motion or the motion of an object thrown in the atmosphere. Here, the motion is two-dimensional, including both vertical (free fall) and horizontal (uniform) motion.

First, calculate how much time the car is in the air using the height of the table and the acceleration due to gravity (approx. 9.81 m/s²). Using the free fall equation, t = √(2h/g), where h is the height of the table and g is the gravity, we get t = √(2*1.225m/9.81 m/s²) = 0.5 seconds. This is the time it takes for the car to hit the floor.

Next, we find the horizontal velocity using the formula s = d/t, where s is speed, d is distance and t is time. So, s = 0.400m/0.5s = 0.8 m/s. This is the speed of the car as it leaves the table.