Answer:
False. SQRW does not increase reading speed.
Explanation:
SQRW stands for Survey, Question, Reading and Writing. SQRW is a four-step strategy for reading and note-taking from a chapter in a material to be read. The SQRW strategy does not make for faster reading abilities, rather it makes for a more efficient reading ability The four steps include:
- Survey: This involves taking a quick broad glance at the chapter to be read, including the title, introduction, headings, images, summary or conclusion. It helps one to recall previous knowledge on the topic and prepares one for new learning.
- Question: As one reads, questions are formed in the mind, this helps the reader to stay focused, and gives the reader a purpose for the reading. It is helpful to turn each heading into a question
- Read: The information following each heading is read, to find out the answers to the questions formed earlier for each head
- Write: Each question and its answer are written down and reread to be sure that each answer is legible and contains all the important information needed to answer the question.
Answer:
its would be brown because it is more dominant
B because you can’t make the ants go a cartoon way.
It’s depends on the amount of light they like.
The answer is a hair root.
Nuclear DNA is commonly extracted from the hair root. The hair root consists of keratinocytes. Keratinocytes are cells found in the epidermis. As all other cells, they contain DNA material. When keratynocites die, they get converted into keratoid material in the process of cornification. As a consequence, d<span>ead cells do not contain DNA material. Therefore, the hair root is the best source of nuclear DNA than shed or cut hair when working with hair sample.</span>
Answer: True
Explanation:
<u>A cell membrane consists of a lipid bilayer made of polar phosphate head and a nonpolar lipid tail.</u> It is semipermeable and regulates the transport of materials through it. For this,<u> it is selectively permeable</u> and since it is made of lipids, hydrophobic and small polar molecules can diffuse easily through it by simple diffusion and down their concentration gradient. However, polar molecules, large molecules (such as glucose) and ions are not able to pass through it because they are repelled.
To accomplish the transport of these molecules that can not diffuse, proteins embebbed in the membrane function as carriers that enable the transport of polar molecules, large molecules and ions by passive (through facilitated diffusion, down its concentration gradient) or active transport (movement against its concentration gradient).
