for these follow the steps find images then label please
Skeletal Muscle LS. View at high power (40X objective lens).
Skeletal muscle has long, tubular cells with distinct striations.
Around individual fibers, it is often possible to see several nuclei.
This is a longitudinal section, cut long the axis so you that you have
concept of long length of these cells. Label the striations and a
nucleus with arrow.
Skeletal Muscle CS. View at high power (40X objective lens). This
muscle is a cross section, showing the circular shape of the tubular
cells from a different perspective. You only need to create a title for
this slide. You do not have to label other structures.
Cardiac Muscle. View at high power (40X objective lens). This type
of muscle has striations and intercalated discs, dense protein
structures that spread.
Smooth Muscle. View at high power (40X objective lens). Smooth
muscle does not have the striations seen in other types of muscle.
The cells are spindle shaped, thick in the middle with thin, tapered
ends. You only need to create a title for this slide. You do not have
to label other structures.
Thyroid Gland. View at medium power (10X objective lens). Use a
bracket to label a follicle. The follicle is made of a colloid and an
epithelium. Use arrows to label the colloid, stained in bright pink,
and the simple cuboidal epithelium going around the colloid.
Adrenal Gland. View at low power (4X objective lens). There are
many layers of tissue visible at this magnification. Use brackets to
label the adrenal cortex (outer layer) and adrenal medulla (inner
layer).
Pituitary. View at low power (4X objective lens). The anterior
pituitary will have many small glandular cells that have dark purple
nuclei. The posterior side will have fewer nuclei and appear to have
a light pink stain. Use brackets to label the anterior pituitary and
posterior pituitary.
Pancreas. View at medium power (10X objective lens). Most of the
slide shows exocrine tissue. At medium power, there are two small
pockets lightly stained tissue called islets. The islets are endocrine
tissues that make insulin and glucagon. Label an example of a
pancreatic islet in your micrograph with an arrow.
for these follow the steps find images then label please
Skeletal Muscle LS. View at high power (40X objective lens).
Skeletal muscle has long, tubular cells with distinct striations.
Around individual fibers, it is often possible to see several nuclei.
This is a longitudinal section, cut long the axis so you that you have
concept of long length of these cells. Label the striations and a
nucleus with arrow.
Skeletal Muscle CS. View at high power (40X objective lens). This
muscle is a cross section, showing the circular shape of the tubular
cells from a different perspective. You only need to create a title for
this slide. You do not have to label other structures.
Cardiac Muscle. View at high power (40X objective lens). This type
of muscle has striations and intercalated discs, dense p.
for these follow the steps find images then label please Ske.pdf
1. for these follow the steps find images then label please
Skeletal Muscle LS. View at high power (40X objective lens).
Skeletal muscle has long, tubular cells with distinct striations.
Around individual fibers, it is often possible to see several nuclei.
This is a longitudinal section, cut long the axis so you that you have
concept of long length of these cells. Label the striations and a
nucleus with arrow.
Skeletal Muscle CS. View at high power (40X objective lens). This
muscle is a cross section, showing the circular shape of the tubular
cells from a different perspective. You only need to create a title for
this slide. You do not have to label other structures.
Cardiac Muscle. View at high power (40X objective lens). This type
of muscle has striations and intercalated discs, dense protein
structures that spread.
Smooth Muscle. View at high power (40X objective lens). Smooth
muscle does not have the striations seen in other types of muscle.
The cells are spindle shaped, thick in the middle with thin, tapered
ends. You only need to create a title for this slide. You do not have
to label other structures.
Thyroid Gland. View at medium power (10X objective lens). Use a
bracket to label a follicle. The follicle is made of a colloid and an
epithelium. Use arrows to label the colloid, stained in bright pink,
and the simple cuboidal epithelium going around the colloid.
Adrenal Gland. View at low power (4X objective lens). There are
many layers of tissue visible at this magnification. Use brackets to
label the adrenal cortex (outer layer) and adrenal medulla (inner
layer).
Pituitary. View at low power (4X objective lens). The anterior
pituitary will have many small glandular cells that have dark purple
nuclei. The posterior side will have fewer nuclei and appear to have
a light pink stain. Use brackets to label the anterior pituitary and
posterior pituitary.
Pancreas. View at medium power (10X objective lens). Most of the
slide shows exocrine tissue. At medium power, there are two small
pockets lightly stained tissue called islets. The islets are endocrine
tissues that make insulin and glucagon. Label an example of a
pancreatic islet in your micrograph with an arrow.
for these follow the steps find images then label please
Skeletal Muscle LS. View at high power (40X objective lens).
Skeletal muscle has long, tubular cells with distinct striations.
Around individual fibers, it is often possible to see several nuclei.
2. This is a longitudinal section, cut long the axis so you that you have
concept of long length of these cells. Label the striations and a
nucleus with arrow.
Skeletal Muscle CS. View at high power (40X objective lens). This
muscle is a cross section, showing the circular shape of the tubular
cells from a different perspective. You only need to create a title for
this slide. You do not have to label other structures.
Cardiac Muscle. View at high power (40X objective lens). This type
of muscle has striations and intercalated discs, dense protein
structures that spread.
Smooth Muscle. View at high power (40X objective lens). Smooth
muscle does not have the striations seen in other types of muscle.
The cells are spindle shaped, thick in the middle with thin, tapered
ends. You only need to create a title for this slide. You do not have
to label other structures.
Thyroid Gland. View at medium power (10X objective lens). Use a
bracket to label a follicle. The follicle is made of a colloid and an
epithelium. Use arrows to label the colloid, stained in bright pink,
and the simple cuboidal epithelium going around the colloid.
Adrenal Gland. View at low power (4X objective lens). There are
many layers of tissue visible at this magnification. Use brackets to
label the adrenal cortex (outer layer) and adrenal medulla (inner
layer).
Pituitary. View at low power (4X objective lens). The anterior
pituitary will have many small glandular cells that have dark purple
nuclei. The posterior side will have fewer nuclei and appear to have
a light pink stain. Use brackets to label the anterior pituitary and
posterior pituitary.
Pancreas. View at medium power (10X objective lens). Most of the
slide shows exocrine tissue. At medium power, there are two small
pockets lightly stained tissue called islets. The islets are endocrine
tissues that make insulin and glucagon. Label an example of a
pancreatic islet in your micrograph with an arrow.
Skeletal Muscle LS. View at high power (40X objective lens).
Skeletal muscle has long, tubular cells with distinct striations.
Around individual fibers, it is often possible to see several nuclei.
This is a longitudinal section, cut long the axis so you that you have
concept of long length of these cells. Label the striations and a
nucleus with arrow.
Skeletal Muscle CS. View at high power (40X objective lens). This
muscle is a cross section, showing the circular shape of the tubular
3. cells from a different perspective. You only need to create a title for
this slide. You do not have to label other structures.
Cardiac Muscle. View at high power (40X objective lens). This type
of muscle has striations and intercalated discs, dense protein
structures that spread.
Smooth Muscle. View at high power (40X objective lens). Smooth
muscle does not have the striations seen in other types of muscle.
The cells are spindle shaped, thick in the middle with thin, tapered
ends. You only need to create a title for this slide. You do not have
to label other structures.
Thyroid Gland. View at medium power (10X objective lens). Use a
bracket to label a follicle. The follicle is made of a colloid and an
epithelium. Use arrows to label the colloid, stained in bright pink,
and the simple cuboidal epithelium going around the colloid.
Adrenal Gland. View at low power (4X objective lens). There are
many layers of tissue visible at this magnification. Use brackets to
label the adrenal cortex (outer layer) and adrenal medulla (inner
layer).
Pituitary. View at low power (4X objective lens). The anterior
pituitary will have many small glandular cells that have dark purple
nuclei. The posterior side will have fewer nuclei and appear to have
a light pink stain. Use brackets to label the anterior pituitary and
posterior pituitary.
Pancreas. View at medium power (10X objective lens). Most of the
slide shows exocrine tissue. At medium power, there are two small
pockets lightly stained tissue called islets. The islets are endocrine
tissues that make insulin and glucagon. Label an example of a
pancreatic islet in your micrograph with an arrow.
its not a diagram irs just pictures
you can send it to me 6157194422