HELP! QUICK! I need to know: in the stage 2 of photosynthesis, NADP+ becomes NADPH by adding an H+. Where does the H+ come from

Some members of this protozoan group cause red tide

Finger [1]

Red tide is a common name for algal blooms, which are large concentrations of aquatic microorganisms, such as protozoans and unicellular algae (e.g. dinoflagellates and diatoms). The upwelling of nutrients from the sea floor, often following massive storms, provides for the algae and triggers bloom events.

4 0

2 years ago

ANSWER ASAP!!!!!!!!!

Doss [256]

Answer:

I personally think its A

Explanation:

8 0

3 years ago

Read 2 more answers

Give three reasons supported by the text that specialization and interdependence could be considered the keys to homeostasis in

VLD [36.1K]

Answer

:Why

Explanation:

8 0

3 years ago

Read 2 more answers

How does altered ventilation and diffusion affect these processes?

mestny [16]

Lungs take in air, and diffuse (absorb) air into the capillaries of the blood. However, this process is two steps, one for inhalation and one for exhalation. Diffusion takes place in both processes, and serves different purposes. One is to absorb oxygen, the other is to rid co2.

3 0

3 years ago

How can you increase kinetic energy?|

Darya [45]

Answer and Explanation

__________________________________________________________

According to Sciencing,

<h2>Translational Kinetic Energy </h2>

Translational kinetic energy is the energy of motion in a straight direction -- think of it as the energy of a car driving down the street. Kinetic energy is a function of the object's mass and its velocity. More specifically, translational kinetic energy can be described as one-half times the mass times the square of the object's velocity: 1/2mv^2.

__________________________________________________________

<h2>Increasing Translational Kinetic Energy </h2>

Because the translational kinetic energy formula consists of only two variables, mass, and velocity, increasing one of those properties is the only way to increase an object's translational kinetic energy. Increases to mass and velocity, however, do not have the same impact. Because kinetic energy is proportional to the velocity squared, increases in velocity will have an exponentially greater effect on translational kinetic energy. Doubling the mass of an object will only double its kinetic energy, but doubling the velocity of the object will quadruple its velocity.

__________________________________________________________

<h2>Rotational Kinetic Energy </h2>

Rotational kinetic energy describes the energy of an object rotating around a center of gravity -- for example, a rider on a Ferris wheel. In this case, kinetic energy is still a function of mass and velocity, but the terms used are slightly different to account for the movement in a circular direction. Rotational kinetic energy applies the same equation, except the mass term is replaced by a variable known as the "moment of inertia," (I), while the velocity term is replaced by the object's "angular velocity," (w) -- 1/2Iw^2.

__________________________________________________________

<h2>Increasing Rotational Kinetic Energy </h2>

As with translational kinetic energy, increasing energy is a matter of increasing mass and velocity. The "moment of inertia" is equal to an object's mass times the square of its distance from the center of rotation, so it can be increased by either increasing the object's mass or moving it farther from the center of rotation -- simply build a bigger Ferris wheel. Alternatively, you can increase the kinetic energy by increasing the angular velocity, which means simply increasing the speed at which the object rotates around the center of rotation.

__________________________________________________________

Big thanks to Sciencing, that's where I got all the answers! :3

__________________________________________________________

Hope this helps! <3

__________________________________________________________

4 0

3 years ago